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InstructorCourseTermEnrollEvals MadeRcmnd ClassRcmnd InstrStudy Hrs/wkAvg Grade ExpectedAvg Grade Received
Popescu, Cristian D. MATH 100B - Abstract Algebra II (A) WI2274 26 84.0% 79.2% 11.14 B- (2.96) B+ (3.50)
Eggers, John Dietrich MATH 102 - Applied Linear Algebra (A) WI22131 36 88.6% 94.3% 7.53 B+ (3.44) B- (2.97)
Zhang, Ming MATH 102 - Applied Linear Algebra (B) WI22105 74 83.8% 90.5% 8.28 B (3.23) B- (2.81)
Hodges, Reuven Moses MATH 103A - Modern Algebra I (A) WI2257 22 95.2% 100.0% 7.74 B+ (3.48) B- (2.71)
Edie-Michell, Cain MATH 103A - Modern Algebra I (B) WI2263 24 87.5% 87.5% 7.83 B+ (3.38) B- (2.87)
Lahiri, Aranya MATH 103A - Modern Algebra I (C) WI2266 34 81.3% 90.6% 8.63 B (3.28) B (3.23)
Alberts, Brandon MATH 103B - Modern Algebra II (A) WI2259 51 82.4% 88.2% 8.50 B (3.00) C+ (2.60)
Lim, Seonhee MATH 103B - Modern Algebra II (B) WI2223 11 63.6% 81.8% 6.50 B- (2.73) C+ (2.68)
Greenfeld, Be'Eri MATH 103B - Modern Algebra II (C) WI2275 38 89.5% 94.7% 8.08 B+ (3.39) B (3.24)
Popescu, Cristian D. MATH 104A - Number Theory I (A) WI2216 4 100.0% 100.0% 6.50 B (3.25) N/A
Pollack, Aaron MATH 105 - Basic Number Theory (A) WI2238 17 94.1% 100.0% 6.03 B (3.24) B+ (3.39)
Chung, Kwun MATH 109 - Mathematical Reasoning (A) WI2264 24 100.0% 76.2% 7.17 B (3.19) B- (2.78)
Ganzberger, Geoffrey Michael MATH 109 - Mathematical Reasoning (B) WI2269 34 93.9% 93.9% 6.74 B- (2.97) B (3.03)
Kolesnik, Brett T MATH 109 - Mathematical Reasoning (C) WI2262 21 68.4% 63.2% 8.92 B+ (3.33) B (3.24)
Jekel, David Andrew MATH 109 - Mathematical Reasoning (D) WI2273 32 96.9% 100.0% 8.43 B+ (3.50) B (3.06)
Belmont, Eva Kinoshita MATH 109 - Mathematical Reasoning (E) WI2266 25 87.5% 83.3% 8.42 B+ (3.48) B- (2.96)
Bowers, Adam R. MATH 10A - Calculus I (A) WI22318 150 79.9% 76.2% 6.57 B (3.20) B- (2.95)
Anzaldo, Leesa B MATH 10A - Calculus I (B) WI22298 144 86.8% 94.9% 6.82 B (3.26) B (3.03)
Jin, Muzhi MATH 10A - Calculus I (C) WI22217 90 79.5% 74.7% 6.28 B (3.26) B (3.03)
Eggers, John Dietrich MATH 10B - Calculus II (A) WI22269 136 58.3% 50.4% 6.42 B (3.03) C+ (2.68)
Edie-Michell, Cain MATH 10B - Calculus II (B) WI22193 94 69.1% 79.6% 6.82 B- (2.94) B (3.01)
Chung, Kwun MATH 10B - Calculus II (C) WI22198 112 52.3% 48.5% 6.37 B- (2.89) B- (2.75)
Hodges, Reuven Moses MATH 10B - Calculus II (D) WI22192 82 62.0% 84.8% 6.53 B (3.09) B- (2.80)
Upton, James Thomas MATH 10B - Calculus II (E) WI22205 105 65.0% 88.3% 6.42 B (3.15) B- (2.95)
Carter, Anne Toulson MATH 10C - Calculus III (A) WI22212 99 81.9% 93.6% 7.06 B+ (3.34) B- (2.84)
Chan, Pak Yeung MATH 10C - Calculus III (B) WI22168 71 87.0% 79.7% 6.47 B (3.13) B- (2.87)
Rava, Denise MATH 11 - Calculus-Based Prob & Stats (A) WI22201 87 71.8% 78.6% 8.50 B (3.21) B- (3.00)
Rava, Denise MATH 11 - Calculus-Based Prob & Stats (B) WI22260 131 76.6% 79.7% 8.28 B (3.23) B- (2.99)
Sterbenz, Jacob MATH 110 - Intro/Partial Diff Equations (A) WI2238 10 50.0% 60.0% 10.50 C+ (2.63) C+ (2.43)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) WI2227 13 92.3% 100.0% 4.96 A- (3.77) A (4.00)
Rabin, Jeffrey Mark MATH 120A - Elements of Complex Analysis (A) WI2251 16 53.3% 64.3% 8.10 C+ (2.53) C+ (2.51)
Harel, Guershon MATH 121A - Found of Teachg/Learng Math I (B) WI2224 14 64.3% 50.0% 7.64 B+ (3.43) B- (2.74)
Zhang, Yuming MATH 130 - Diff Eqs & Dynamical Systems (A) WI2262 19 66.7% 58.8% 7.28 B- (2.94) B- (2.86)
Ioana, Adrian MATH 140A - Foundations of Real Analysis I (A) WI2242 12 58.3% 83.3% 12.17 C+ (2.55) C+ (2.45)
Mohammadi, Amir MATH 140B - Foundations/Real Analysis II (A) WI2211 3 100.0% 100.0% 9.50 B+ (3.33) N/A
Spolaor, Luca MATH 140B - Foundations/Real Analysis II (B) WI2261 18 88.2% 100.0% 10.28 B (3.28) B (3.07)
Zucker, Andrew MATH 142A - Introduction to Analysis I (A) WI2211 6 83.3% 66.7% 9.50 B (3.00) N/A
Liu, Shuang MATH 142A - Introduction to Analysis I (B) WI2276 33 80.0% 86.7% 8.02 B+ (3.40) B+ (3.66)
Nemish, Yuriy MATH 142A - Introduction to Analysis I (C) WI2232 21 66.7% 66.7% 9.10 B (3.20) C+ (2.64)
Copeland, Daniel Reuben MATH 142B - Introduction to Analysis II (A) WI2220 10 88.9% 77.8% 8.06 B (3.11) B (3.15)
Xu, Hang MATH 142B - Introduction to Analysis II (B) WI2268 19 94.1% 100.0% 7.91 A- (3.71) A- (3.72)
Belmont, Eva Kinoshita MATH 142B - Introduction to Analysis II (C) WI2254 18 76.5% 100.0% 8.62 B- (2.94) B- (2.73)
Cloninger, Alexander MATH 144 - Intro to Fourier Analysis (A) WI2210 3 100.0% 100.0% 8.50 B+ (3.67) N/A
Luo, Ruth MATH 152 - Applicable Math and Computing (A) WI22152 112 99.1% 98.2% 6.46 B+ (3.55) B (3.17)
Bowers, Adam R. MATH 153 - Geometry for Secondary Teacher (A) WI2233 13 81.8% 100.0% 6.17 B- (2.75) B (3.08)
Tesler, Glenn MATH 154 - Discrete Math & Graph Theory (A) WI22136 53 98.1% 96.2% 8.38 B+ (3.60) B (3.05)
Kedlaya, Kiran S. MATH 157 - Intro to Mathematical Software (A) WI22102 37 80.6% 86.1% 8.61 B- (2.89) B (3.15)
Verstraete, Jacques Allan MATH 158 - Extremal Combinatorics/Graph (A) WI2219 7 85.7% 100.0% 8.79 B+ (3.43) N/A
Buss, Samuel R MATH 160B - Elementary Math Logic II (A) WI2210 3 100.0% 100.0% 6.50 B+ (3.67) N/A
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (A) WI22117 86 93.0% 94.2% 7.04 B+ (3.65) B (3.29)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (B) WI22125 94 92.3% 96.7% 7.31 B+ (3.63) B+ (3.49)
Brust, Johannes Joachim MATH 170B - Intro/Numerical Analy/Approxim (A) WI2215 6 40.0% 20.0% 8.90 B (3.00) N/A
Holst, Michael J MATH 170B - Intro/Numerical Analy/Approxim (B) WI22124 106 90.4% 94.2% 8.73 B+ (3.33) B+ (3.38)
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI22122 49 89.6% 78.7% 7.75 A- (3.79) B- (2.73)
Tian, Xiaochuan MATH 175 - Numerical Methods for PDE (A) WI227 3 100.0% 100.0% 8.50 B+ (3.50) N/A
Kemp, Todd Aahron MATH 18 - Linear Algebra (B) WI22648 588 87.8% 89.2% 6.40 B (3.29) B (3.12)
Chan, Pak Yeung MATH 18 - Linear Algebra (C) WI22285 232 73.9% 71.6% 6.47 B (3.22) B- (2.98)
Agarwal, Pooja MATH 180A - Introduction to Probability (A) WI22109 43 97.6% 92.9% 7.60 B (3.27) B- (2.74)
Schweinsberg, Jason MATH 180A - Introduction to Probability (B) WI22142 53 86.5% 80.8% 9.25 B (3.22) B (3.05)
Zheng, Tianyi MATH 180B - Intro/Stochastic Processes I (A) WI2284 31 72.4% 57.1% 9.00 B (3.23) B- (2.99)
Zheng, Tianyi MATH 180B - Intro/Stochastic Processes I (B) WI2229 8 100.0% 87.5% 9.25 B (3.13) B- (2.98)
Quarfoot, David James MATH 181A - Intro/Math Statistics I (A) WI2239 18 100.0% 100.0% 9.50 A- (3.71) B- (2.92)
Zhang, Danna MATH 181A - Intro/Math Statistics I (B) WI22143 55 90.9% 98.1% 7.99 B+ (3.56) B (3.28)
Dumitriu, Ioana MATH 182 - Hidden Data in Random Matrices (A) WI2234 17 52.9% 87.5% 8.03 B- (2.82) B (3.00)
Quarfoot, David James MATH 183 - Statistical Methods (A) WI22236 94 91.5% 96.8% 10.05 B+ (3.63) B (3.23)
Sam, Steven V MATH 184 - Enumerative Combinatorics (A) WI2254 21 61.9% 57.1% 8.90 B+ (3.45) C+ (2.40)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) WI2241 9 100.0% 100.0% 7.83 B+ (3.67) B+ (3.50)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI2285 33 84.8% 93.9% 6.88 B+ (3.52) B (3.19)
Alberts, Brandon MATH 187A - Introduction to Cryptography (A) WI22139 136 97.8% 92.6% 5.49 B+ (3.58) B+ (3.59)
Zhang, Zhuosong MATH 189 - Data Analysis and Inference (A) WI22113 37 76.5% 67.6% 4.98 A- (3.81) B+ (3.67)
Zhou, Wenxin MATH 189 - Data Analysis and Inference (B) WI22131 33 90.6% 90.6% 7.19 A- (3.94) A- (3.94)
Rhoades, Brendon Patrick MATH 190A - Foundations of Topology I (A) WI2227 12 83.3% 100.0% 9.00 B+ (3.55) B+ (3.34)
Agarwal, Pooja MATH 194 - The Mathematics of Finance (A) WI2267 20 95.0% 94.7% 6.80 B+ (3.65) B+ (3.33)
Harel, Guershon MATH 2 - Intro to College Mathematics (A) WI2232 15 66.7% 73.3% 8.10 C+ (2.67) C (2.18)
Anzaldo, Leesa B MATH 2 - Intro to College Mathematics (B) WI2239 21 100.0% 100.0% 5.55 B (3.21) C+ (2.66)
Tu, Yucheng MATH 20A - Calculus/Science & Engineering (A) WI22188 93 87.4% 75.6% 6.48 B (3.10) B (3.03)
McKinley, Gweneth Anne MATH 20A - Calculus/Science & Engineering (B) WI22216 132 84.9% 78.0% 7.85 B- (2.94) C+ (2.68)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (A) WI22574 403 96.2% 98.7% 7.24 B+ (3.34) B- (2.88)
Lahiri, Aranya MATH 20B - Calculus/Science & Engineering (B) WI22198 122 89.3% 87.5% 7.36 B (3.05) C+ (2.50)
Zhang, Ming MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI22196 158 93.7% 94.3% 6.41 B+ (3.51) B (3.20)
Salehi Golsefidy, Alireza MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI22539 410 94.8% 97.5% 6.54 B+ (3.58) B (3.29)
Jin, Muzhi MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI22224 170 88.2% 79.3% 7.11 B+ (3.52) B+ (3.30)
Tu, Yucheng MATH 20D - Intro/Differential Equations (A) WI22223 102 95.8% 100.0% 5.62 A- (3.71) B+ (3.55)
Um, Ko Woon MATH 20D - Intro/Differential Equations (B) WI22185 91 86.4% 87.5% 6.98 B+ (3.42) B- (2.85)
Lee, Kisun MATH 20D - Intro/Differential Equations (C) WI22199 100 97.9% 97.9% 6.85 B+ (3.50) B+ (3.38)
Brust, Johannes Joachim MATH 20D - Intro/Differential Equations (D) WI22135 89 85.4% 75.3% 6.03 B+ (3.45) B (3.00)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) WI22280 128 79.8% 85.1% 7.70 B (3.17) B- (2.86)
Um, Ko Woon MATH 20E - Vector Calculus (B) WI22187 77 82.4% 90.3% 7.95 B (3.10) C+ (2.58)
Novak, Jonathan I MATH 31BH - Honors Multivariable Calculus (A) WI2237 34 94.1% 73.5% 5.50 B+ (3.44) B+ (3.64)
Hammock, Frances H MATH 3C - Precalculus (A) WI2270 29 82.8% 75.9% 5.60 B (3.04) C+ (2.48)
Hammock, Frances H MATH 3C - Precalculus (B) WI2271 34 87.9% 75.8% 5.77 B- (2.97) B- (2.74)
Hammock, Frances H MATH 3C - Precalculus (C) WI22104 46 86.4% 88.6% 6.77 B (3.05) B- (2.76)
Higgins, Zachary Douglas MATH 4C - Precalculus for Sci & Engn (A) WI22110 47 97.8% 97.7% 4.46 B+ (3.53) B+ (3.47)
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI2229 14 92.9% 92.9% 2.07 A- (3.86) A- (3.80)
Alberts, Brandon MATH 100A - Abstract Algebra I (A) FA2157 27 84.6% 88.5% 9.65 B (3.00) C+ (2.67)
Kedlaya, Kiran S. MATH 100A - Abstract Algebra I (B) FA2165 29 82.1% 92.9% 10.21 B (3.18) C+ (2.68)
Vavalis, Emmanuel MATH 102 - Applied Linear Algebra (A) FA21107 48 52.1% 27.1% 7.39 B (3.06) C+ (2.55)
Ganzberger, Geoffrey Michael MATH 102 - Applied Linear Algebra (B) FA2165 22 90.5% 95.2% 7.70 B (3.24) B- (2.90)
Suk, Andrew Hoon MATH 103A - Modern Algebra I (A) FA2166 57 91.2% 96.5% 7.31 B (3.21) C+ (2.65)
Zhang, Ming MATH 103A - Modern Algebra I (B) FA2156 36 85.7% 97.1% 8.44 B+ (3.44) B- (2.81)
Lahiri, Aranya MATH 103A - Modern Algebra I (C) FA2120 10 80.0% 100.0% 6.50 B (3.20) B- (2.80)
Hodges, Reuven Moses MATH 103A - Modern Algebra I (D) FA2163 20 95.0% 100.0% 7.50 B+ (3.60) C+ (2.69)
Higgins, Zachary Douglas MATH 109 - Mathematical Reasoning (A) FA2165 37 69.7% 61.3% 10.97 C+ (2.42) C+ (2.67)
Tu, Yucheng MATH 109 - Mathematical Reasoning (B) FA2176 57 89.3% 91.1% 7.34 B+ (3.36) B (3.12)
Greenfeld, Be'Eri MATH 109 - Mathematical Reasoning (C) FA2170 32 93.5% 96.8% 6.11 B+ (3.68) A- (3.86)
Zucker, Andrew MATH 109 - Mathematical Reasoning (D) FA2166 27 84.6% 72.0% 7.83 B (3.11) B- (2.82)
Zucker, Andrew MATH 109 - Mathematical Reasoning (E) FA2165 21 84.2% 78.9% 8.28 B (3.06) C (2.24)
Warnke, Lutz Peter MATH 10A - Calculus I (A) FA21346 275 87.9% 87.8% 5.64 B (3.18) B- (2.84)
Hammock, Frances H MATH 10A - Calculus I (B) FA21258 139 86.4% 84.8% 5.92 B+ (3.39) B- (2.99)
Greenfeld, Be'Eri MATH 10A - Calculus I (C) FA21258 141 76.5% 57.7% 4.04 B+ (3.47) B (3.26)
Zheng, Zequn MATH 10A - Calculus I (D) FA21271 155 64.4% 43.8% 6.86 B- (2.98) B (3.08)
Carter, Anne Toulson MATH 10B - Calculus II (A) FA21238 132 88.9% 94.4% 6.42 B+ (3.38) B (3.08)
Chan, Pak Yeung MATH 10B - Calculus II (B) FA21246 111 89.5% 79.6% 5.14 B+ (3.54) B (3.02)
Chan, Pak Yeung MATH 10B - Calculus II (C) FA21160 76 88.6% 75.7% 5.70 B+ (3.39) B (3.01)
Ciotti, Benjamin MATH 10C - Calculus III (A) FA21184 90 54.0% 55.4% 9.92 B- (2.74) C+ (2.40)
Ciotti, Benjamin MATH 10C - Calculus III (B) FA21151 65 48.4% 50.0% 8.47 B- (2.95) C+ (2.39)
McKernan, James MATH 11 - Calculus-Based Prob & Stats (A) FA21308 164 54.7% 42.0% 7.96 B (3.16) B- (2.95)
Rava, Denise MATH 11 - Calculus-Based Prob & Stats (B) FA21206 97 76.8% 78.7% 7.95 B (3.09) B- (2.78)
Kolesnik, Brett T MATH 11 - Calculus-Based Prob & Stats (C) FA21247 221 61.5% 63.6% 8.88 B (3.20) B (3.25)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA2130 10 90.0% 100.0% 4.90 B+ (3.60) A- (3.79)
Xu, Hang MATH 120A - Elements of Complex Analysis (A) FA2167 31 93.5% 96.8% 6.83 A- (3.70) B (3.20)
Mohammadi, Amir MATH 140A - Foundations of Real Analysis I (A) FA2156 17 86.7% 86.7% 11.03 B (3.13) C+ (2.41)
Xiao, Ming MATH 140A - Foundations of Real Analysis I (B) FA2167 29 100.0% 100.0% 8.50 B+ (3.42) B (3.02)
Edie-Michell, Cain MATH 142A - Introduction to Analysis I (A) FA2139 19 72.2% 82.4% 9.50 C+ (2.44) C+ (2.44)
Belmont, Eva Kinoshita MATH 142A - Introduction to Analysis I (B) FA2138 16 60.0% 86.7% 10.93 C+ (2.57) C+ (2.70)
Brust, Johannes Joachim MATH 142A - Introduction to Analysis I (C) FA2152 43 76.7% 79.1% 8.21 B (3.02) C+ (2.69)
Mohammadi, Amir MATH 142A - Introduction to Analysis I (D) FA2160 17 80.0% 93.3% 9.79 B+ (3.40) B- (2.72)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA2138 18 81.3% 93.8% 11.09 B (3.06) B- (2.71)
Kane, Daniel Mertz MATH 154 - Discrete Math & Graph Theory (A) FA21154 71 89.6% 86.6% 10.35 B (3.17) B- (2.93)
Buss, Samuel R MATH 160A - Elementary Math Logic I (A) FA2141 13 84.6% 84.6% 7.58 B (3.25) B (3.12)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (A) FA21129 99 93.9% 97.0% 7.15 B+ (3.46) B (3.17)
Holst, Michael J MATH 170A - Intro Numerical Analys/Linear (B) FA21136 112 90.1% 92.7% 8.59 B+ (3.33) B (3.27)
Saab, Rayan MATH 173A - Optimization/Data Science I (A) FA2188 35 79.4% 91.2% 8.97 B (3.25) B (3.06)
Leok, Melvin MATH 174 - Numericl Methods/Physcl Modlng (A) FA2150 17 93.8% 81.3% 7.30 B+ (3.60) B- (2.75)
Luo, Ruth MATH 18 - Linear Algebra (A) FA21175 140 95.0% 99.3% 5.74 B+ (3.49) B+ (3.45)
Zelmanov, Efim I MATH 18 - Linear Algebra (B) FA21635 509 88.2% 67.2% 5.95 B+ (3.48) B+ (3.36)
Xu, Hang MATH 18 - Linear Algebra (C) FA21219 181 92.2% 98.3% 6.25 B+ (3.62) B+ (3.59)
Jekel, David Andrew MATH 180A - Introduction to Probability (A) FA21146 99 93.8% 95.9% 8.16 B+ (3.42) B (3.03)
Agarwal, Pooja MATH 180A - Introduction to Probability (B) FA21174 111 91.6% 87.7% 6.72 B (3.17) B (3.01)
McKinley, Gweneth Anne MATH 180A - Introduction to Probability (C) FA21138 109 89.6% 93.3% 7.43 B (3.28) B- (2.94)
Schweinsberg, Jason MATH 180C - Intro/Stochastic Processes II (A) FA2156 21 94.7% 100.0% 11.45 B+ (3.30) B- (2.79)
Zhang, Danna MATH 181B - Intro/Math Statistics II (A) FA21123 49 95.7% 97.8% 8.15 B+ (3.50) B+ (3.40)
Rava, Denise MATH 183 - Statistical Methods (A) FA21250 118 85.6% 91.1% 8.10 B+ (3.35) B (3.26)
Suk, Andrew Hoon MATH 184 - Enumerative Combinatorics (A) FA21142 112 98.2% 98.2% 6.46 B+ (3.59) B (3.13)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (A) FA21139 125 92.8% 86.4% 5.30 A- (3.75) B+ (3.55)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (B) FA21138 123 96.7% 90.2% 7.95 A- (3.78) B+ (3.55)
Rhoades, Brendon Patrick MATH 188 - Algebraic Combinatorics (A) FA2114 8 87.5% 87.5% 10.00 B (3.25) N/A
Hammock, Frances H MATH 2 - Intro to College Mathematics (A) FA2136 17 87.5% 87.5% 5.75 B+ (3.63) B- (2.82)
Quarfoot, David James MATH 2 - Intro to College Mathematics (B) FA2135 21 85.7% 81.0% 6.40 C+ (2.57) C+ (2.51)
Quarfoot, David James MATH 2 - Intro to College Mathematics (C) FA2135 21 76.2% 80.0% 7.45 C+ (2.53) C+ (2.51)
Zhang, Yuming MATH 20A - Calculus/Science & Engineering (A) FA21157 90 75.3% 37.0% 8.04 B (3.14) B- (2.79)
Zhang, Yuming MATH 20A - Calculus/Science & Engineering (B) FA21241 130 56.0% 25.2% 8.10 B- (2.98) C+ (2.64)
Sterbenz, Jacob MATH 20A - Calculus/Science & Engineering (C) FA21275 142 68.8% 60.9% 8.50 B- (2.95) B- (2.83)
Sterbenz, Jacob MATH 20A - Calculus/Science & Engineering (D) FA2165 39 69.4% 47.2% 9.33 C+ (2.60) C+ (2.34)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) FA21513 269 86.2% 74.6% 6.60 B+ (3.61) B+ (3.35)
Anzaldo, Leesa B MATH 20B - Calculus/Science & Engineering (B) FA21230 125 89.3% 86.7% 6.29 B+ (3.63) B+ (3.35)
Liu, Shuang MATH 20B - Calculus/Science & Engineering (C) FA21188 107 85.1% 68.4% 6.19 B+ (3.56) B+ (3.48)
Chung, Kwun MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA21232 98 92.5% 77.4% 6.63 B+ (3.59) B+ (3.37)
Lee, Kisun MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA21218 125 100.0% 99.2% 6.19 A- (3.75) B+ (3.63)
Ioana, Adrian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA21664 345 96.1% 94.9% 7.26 A- (3.76) B+ (3.60)
Jin, Muzhi MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA21159 86 96.4% 88.0% 5.70 A- (3.75) B+ (3.57)
Jin, Muzhi MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA2191 48 100.0% 85.4% 5.39 B+ (3.67) B+ (3.51)
Lee, Kisun MATH 20D - Intro/Differential Equations (A) FA21186 152 89.4% 93.4% 7.92 B (3.21) B (3.28)
Tu, Yucheng MATH 20D - Intro/Differential Equations (B) FA21250 180 94.9% 96.6% 5.51 B+ (3.60) B+ (3.32)
Vavalis, Emmanuel MATH 20D - Intro/Differential Equations (C) FA21102 48 59.6% 43.5% 8.11 B (3.11) C+ (2.59)
Tran, Brian Kha MATH 20E - Vector Calculus (A) FA21226 150 97.3% 96.6% 7.02 B+ (3.61) B+ (3.47)
Roberts, Justin Deritter MATH 20E - Vector Calculus (B) FA21244 102 68.3% 74.0% 8.94 B (3.07) B- (2.79)
Fulek, Radoslav MATH 20E - Vector Calculus (C) FA21276 175 87.5% 69.6% 6.37 B+ (3.65) A- (3.73)
Rhoades, Brendon Patrick MATH 31AH - Honors Linear Algebra (A) FA2156 45 84.4% 97.8% 10.86 B (3.16) B+ (3.33)
Anzaldo, Leesa B MATH 3C - Precalculus (A) FA21211 94 96.7% 96.6% 4.59 B+ (3.61) B+ (3.35)
Um, Ko Woon MATH 3C - Precalculus (B) FA21163 75 91.7% 91.5% 5.87 B (3.17) B (3.16)
Um, Ko Woon MATH 3C - Precalculus (C) FA21184 97 84.9% 83.7% 5.94 B- (2.94) B (3.06)
Um, Ko Woon MATH 3C - Precalculus (D) FA21110 54 98.1% 98.1% 6.27 B (3.23) B (3.20)
Liu, Shuang MATH 3C - Precalculus (E) FA21138 114 84.8% 78.6% 4.73 B (3.22) B (3.28)
Keller, Jacob James MATH 4C - Precalculus for Sci & Engn (A) FA2170 40 100.0% 86.1% 4.39 B+ (3.37) B (3.28)
Upton, James Thomas MATH 4C - Precalculus for Sci & Engn (B) FA21140 71 92.2% 93.4% 3.65 B+ (3.64) B (3.30)
Copeland, Daniel Reuben MATH 4C - Precalculus for Sci & Engn (C) FA2165 27 81.5% 81.5% 6.94 B- (2.76) B- (2.83)
Meyer, David A. MATH 87 - Freshman Seminar (A) FA2116 12 90.9% 100.0% 1.77 N/A N/A
Kane, Daniel Mertz MATH 96 - Putnam Seminar (A) FA2128 13 100.0% 100.0% 3.67 A (4.00) N/A
Meyer, Kyle Phillip MATH 10A - Calculus I (A) S32121 16 62.5% 40.0% 8.00 B (3.00) B (3.26)
Meyer, Kyle Phillip MATH 10A - Calculus I (B) S32114 12 63.6% 18.2% 8.32 C+ (2.55) N/A
Rubalcaba, Robert Ramon MATH 2 - Intro to College Mathematics (A) S32133 24 100.0% 100.0% 9.25 B (3.17) B+ (3.40)
Rubalcaba, Robert Ramon MATH 2 - Intro to College Mathematics (B) S32140 32 84.6% 88.0% 11.12 B- (2.97) B+ (3.30)
Tran, Brian Kha MATH 20A - Calculus/Science & Engineering (A) S32123 18 100.0% 100.0% 6.94 C+ (2.67) B (3.08)
Strahl, Perry Robert MATH 3C - Precalculus (A) S32154 52 80.4% 76.5% 6.92 B (3.20) B- (2.87)
Tiefenbruck, Janine LoBue MATH 3C - Precalculus (B) S32160 27 84.6% 87.0% 7.96 C+ (2.63) B (3.02)
Strahl, Perry Robert MATH 3C - Precalculus (C) S32162 58 71.9% 56.1% 7.33 B- (2.88) B- (2.70)
Sterbenz, Jacob MATH 4C - Precalculus for Sci & Engn (A) S32138 21 100.0% 100.0% 4.50 B+ (3.62) B+ (3.54)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) S22147 14 84.6% 53.8% 10.50 B+ (3.50) B- (2.98)
Mohammadi, Amir MATH 103B - Modern Algebra II (A) S22159 14 57.1% 61.5% 13.07 B- (2.71) C+ (2.45)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S22170 20 70.0% 65.0% 10.00 B+ (3.47) B (3.15)
Ciotti, Benjamin MATH 10B - Calculus II (A) S22132 15 33.3% 25.0% 11.67 C+ (2.67) C+ (2.39)
Sinha, Shubham MATH 10B - Calculus II (B) S22156 14 71.4% 71.4% 8.50 B (3.15) B- (2.94)
Rotar, Vladimir MATH 10C - Calculus III (A) S22194 59 72.4% 82.8% 7.33 B (3.12) B (3.29)
Jiang, He MATH 10C - Calculus III (B) S22181 20 100.0% 100.0% 8.39 B (3.21) B- (2.96)
Eggers, John Dietrich MATH 120A - Elements of Complex Analysis (A) S22181 16 93.3% 80.0% 11.17 B+ (3.47) B- (2.81)
Tu, Yucheng MATH 142B - Introduction to Analysis II (A) S221124 71 83.1% 93.0% 9.69 B+ (3.49) B+ (3.37)
Nie, Jiawang MATH 170A - Intro Numerical Analys/Linear (A) S22134 8 75.0% 50.0% 10.25 A- (3.75) B (3.27)
Nie, Jiawang MATH 170A - Intro Numerical Analys/Linear (B) S22124 3 100.0% 100.0% 5.50 A (4.00) B- (2.97)
Harel, Guershon MATH 18 - Linear Algebra (A) S22126 8 62.5% 50.0% 11.75 B (3.13) C+ (2.56)
Canning, Samir Robert MATH 18 - Linear Algebra (B) S22194 69 100.0% 100.0% 7.51 B+ (3.54) B (3.27)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S22146 25 96.0% 96.0% 9.75 B+ (3.42) B+ (3.50)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (A) S22143 12 100.0% 100.0% 9.50 B+ (3.33) B- (2.97)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (B) S22135 15 100.0% 100.0% 11.21 B (3.00) C+ (2.61)
Verstraete, Jacques Allan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S22197 24 91.7% 100.0% 7.37 B+ (3.48) B (3.08)
Verstraete, Jacques Allan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) S22190 22 90.5% 85.7% 7.17 B+ (3.57) B+ (3.31)
Vavalis, Emmanuel MATH 20D - Intro/Differential Equations (A) S221103 23 73.9% 56.5% 8.77 B+ (3.57) B+ (3.39)
Ciotti, Benjamin MATH 20E - Vector Calculus (A) S221101 28 64.3% 59.3% 11.07 B- (2.81) C+ (2.43)
Salehi Golsefidy, Alireza MATH 103A - Modern Algebra I (A) S12150 35 55.9% 64.7% 12.32 B- (2.79) B- (2.81)
Meyer, Kyle Phillip MATH 103A - Modern Algebra I (B) S12146 11 72.7% 45.5% 11.77 B- (2.90) C+ (2.33)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S12160 13 69.2% 76.9% 7.83 B+ (3.58) B+ (3.36)
Chow, Bennett MATH 109 - Mathematical Reasoning (B) S12164 9 100.0% 85.7% 8.50 B+ (3.67) B+ (3.31)
Bowers, Adam R. MATH 10A - Calculus I (A) S12155 8 75.0% 75.0% 8.50 B (3.17) C+ (2.45)
Bowers, Adam R. MATH 10A - Calculus I (B) S12136 5 60.0% 80.0% 10.50 B- (2.80) C+ (2.69)
Rotar, Vladimir MATH 10B - Calculus II (A) S12168 43 81.4% 93.0% 6.93 B (3.08) B- (2.85)
Ciotti, Benjamin MATH 10B - Calculus II (B) S12137 9 75.0% 75.0% 9.39 C+ (2.67) C+ (2.34)
Fulek, Radoslav MATH 142A - Introduction to Analysis I (A) S121134 82 96.3% 91.3% 9.98 B+ (3.69) B+ (3.53)
Anzaldo, Leesa B MATH 18 - Linear Algebra (A) S121140 38 88.6% 91.2% 8.50 B+ (3.46) B (3.09)
Ma, Zilu MATH 18 - Linear Algebra (B) S121112 32 93.8% 87.1% 6.88 B+ (3.66) B+ (3.31)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S121100 66 95.5% 93.9% 8.92 B+ (3.39) B+ (3.46)
Anzaldo, Leesa B MATH 20A - Calculus/Science & Engineering (A) S12130 11 90.9% 90.9% 8.86 A- (3.73) B+ (3.40)
Green, Nathan E MATH 20B - Calculus/Science & Engineering (A) S12139 12 90.9% 90.9% 8.83 B- (2.83) C+ (2.61)
Green, Nathan E MATH 20B - Calculus/Science & Engineering (B) S12137 8 87.5% 87.5% 10.00 B (3.17) C (2.25)
Nie, Jiaxi MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S12162 20 77.8% 66.7% 8.92 B (3.26) B- (2.74)
Strahl, Perry Robert MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) S12156 38 76.3% 78.9% 7.61 B (3.03) B- (2.72)
Zhang, Yuming MATH 20D - Intro/Differential Equations (A) S12182 24 54.2% 50.0% 9.25 B (3.25) B (3.02)
Ciotti, Benjamin MATH 20E - Vector Calculus (A) S12199 25 76.0% 52.0% 10.98 B (3.28) B- (2.76)
Salehi Golsefidy, Alireza MATH 100C - Abstract Algebra III (A) SP2123 18 83.3% 88.9% 10.50 B (3.29) B+ (3.32)
Eggers, John Dietrich MATH 102 - Applied Linear Algebra (A) SP21141 44 87.8% 92.7% 7.43 A- (3.77) B+ (3.65)
Dressler, Mareike MATH 102 - Applied Linear Algebra (B) SP21127 44 88.4% 69.8% 9.52 B+ (3.39) B- (2.72)
Green, Nathan E MATH 103B - Modern Algebra II (A) SP21108 84 84.3% 94.0% 7.54 B (3.21) B (3.13)
Pollack, Aaron MATH 103B - Modern Algebra II (B) SP2164 24 81.8% 90.9% 7.68 B+ (3.33) B+ (3.32)
De Vleming, Kristin Elizab MATH 109 - Mathematical Reasoning (A) SP2160 53 98.1% 98.1% 7.99 B+ (3.55) B+ (3.40)
Xu, Zhouli MATH 109 - Mathematical Reasoning (B) SP2157 20 100.0% 94.7% 7.72 A- (3.76) B+ (3.46)
Alberts, Brandon MATH 109 - Mathematical Reasoning (C) SP2134 20 68.4% 73.7% 10.18 B (3.00) B+ (3.35)
Verstraete, Jacques Allan MATH 109 - Mathematical Reasoning (D) SP2157 17 94.1% 100.0% 6.97 A- (3.81) B+ (3.57)
Luo, Ruth MATH 109 - Mathematical Reasoning (E) SP2155 42 85.4% 87.8% 8.26 B+ (3.63) B+ (3.35)
Bowers, Adam R. MATH 10A - Calculus I (A) SP21212 64 60.3% 54.8% 8.63 C+ (2.66) C+ (2.64)
Savvas, Michail MATH 10B - Calculus II (A) SP21289 108 94.1% 98.0% 5.87 B (3.29) B+ (3.43)
Greenfeld, Be'Eri MATH 10B - Calculus II (B) SP21214 86 74.7% 62.5% 5.42 B+ (3.35) B+ (3.35)
Ezzati, Parinaz MATH 10B - Calculus II (C) SP21173 55 81.6% 63.3% 6.58 B+ (3.35) B (3.12)
Lee, Kisun MATH 10C - Calculus III (A) SP21190 126 81.0% 92.1% 7.22 B (3.09) B (3.11)
Chan, Pak Yeung MATH 10C - Calculus III (B) SP21130 47 53.3% 40.0% 7.52 C+ (2.60) B (3.05)
Chan, Pak Yeung MATH 10C - Calculus III (C) SP2160 20 68.4% 52.6% 6.92 B (3.06) B (3.07)
Hammock, Frances H MATH 11 - Calculus-Based Prob & Stats (A) SP21294 126 92.6% 99.2% 7.32 B+ (3.57) B- (2.97)
Ezzati, Parinaz MATH 11 - Calculus-Based Prob & Stats (B) SP21204 103 66.3% 38.6% 6.08 B+ (3.35) B+ (3.33)
Li, Bo MATH 114 - Intro/Computatnl Stochastics (A) SP2125 7 100.0% 100.0% 7.93 B+ (3.33) B (3.02)
Xu, Hang MATH 120B - Applied Complex Analysis (A) SP2149 21 100.0% 100.0% 7.80 A- (3.75) B+ (3.47)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP2117 13 100.0% 100.0% 5.27 B+ (3.58) N/A
Mohammadi, Amir MATH 140B - Foundations/Real Analysis II (A) SP2125 10 80.0% 100.0% 7.90 B+ (3.38) C+ (2.49)
Seward, Brandon M. MATH 140C - Foundations/Real Analysis III (A) SP2128 14 100.0% 92.9% 9.50 A- (3.85) B+ (3.37)
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) SP2170 22 77.3% 86.4% 8.95 B+ (3.38) B (3.29)
Wiersma, Matthew T. MATH 142B - Introduction to Analysis II (B) SP2170 55 77.8% 85.2% 9.57 B+ (3.47) B- (2.94)
Zucker, Andrew MATH 142B - Introduction to Analysis II (C) SP2139 10 50.0% 70.0% 10.70 B- (2.83) C+ (2.68)
Fulek, Radoslav MATH 152 - Applicable Math and Computing (A) SP21102 47 65.2% 52.2% 8.01 B- (2.97) B+ (3.31)
Dumitriu, Ioana MATH 154 - Discrete Math & Graph Theory (A) SP21174 83 92.5% 94.9% 6.78 B+ (3.47) B (3.25)
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP21101 35 97.1% 100.0% 5.74 B+ (3.50) B (3.10)
Dumitriu, Ioana MATH 170A - Intro Numerical Analys/Linear (A) SP21158 74 84.9% 86.1% 7.87 B+ (3.56) B (3.26)
Moosmueller, Caroline MATH 170B - Intro/Numerical Analy/Approxim (A) SP21108 88 96.6% 96.6% 7.23 B+ (3.61) B+ (3.64)
Vavalis, Emmanuel MATH 170B - Intro/Numerical Analy/Approxim (B) SP2165 18 43.8% 50.0% 7.03 B- (2.82) B- (2.97)
Leok, Melvin MATH 170C - Intro Numerical Analy/Ord Diff (A) SP2132 10 80.0% 80.0% 6.70 A- (3.75) B (3.11)
Gill, Philip E. MATH 171B - Intro Num Optimiz/Nonlinear (A) SP2181 22 55.6% 52.9% 10.50 B (3.27) B+ (3.46)
Saab, Rayan MATH 173B - Optimization/Data Science II (A) SP2118 8 100.0% 100.0% 6.50 B+ (3.50) N/A
Licht, Martin W MATH 175 - Numerical Methods for PDE (A) SP214 4 100.0% 100.0% 7.50 B+ (3.50) N/A
Vavalis, Emmanuel MATH 179 - Proj in Computational/App Math (A) SP2112 4 75.0% 100.0% 5.00 A (4.00) N/A
Savvas, Michail MATH 18 - Linear Algebra (A) SP21215 98 93.7% 100.0% 6.22 A- (3.71) B+ (3.48)
Anzaldo, Leesa B MATH 18 - Linear Algebra (B) SP21209 98 95.9% 98.0% 5.56 A- (3.72) B+ (3.69)
Anzaldo, Leesa B MATH 18 - Linear Algebra (C) SP21212 94 93.5% 98.9% 6.35 B+ (3.65) B+ (3.62)
Upton, James Thomas MATH 18 - Linear Algebra (D) SP21135 47 91.1% 95.6% 6.54 B+ (3.39) B (3.11)
Agarwal, Pooja MATH 18 - Linear Algebra (E) SP2150 17 94.1% 88.2% 5.44 B+ (3.35) B- (2.90)
Fulek, Radoslav MATH 180A - Introduction to Probability (A) SP21135 99 70.4% 52.0% 7.61 B (3.16) B+ (3.33)
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (A) SP2181 21 95.2% 90.5% 8.60 A- (3.83) B (3.28)
Zheng, Tianyi MATH 180C - Intro/Stochastic Processes II (A) SP2158 15 78.6% 78.6% 7.93 B+ (3.55) B+ (3.33)
Zheng, Tianyi MATH 180C - Intro/Stochastic Processes II (B) SP2143 16 93.3% 86.7% 9.83 A- (3.91) B+ (3.61)
Zhang, Danna MATH 181A - Intro/Math Statistics I (A) SP21141 49 95.8% 97.9% 8.76 A- (3.77) B+ (3.35)
Quarfoot, David James MATH 181B - Intro/Math Statistics II (A) SP2154 18 82.4% 64.7% 14.62 B+ (3.44) B+ (3.59)
Quarfoot, David James MATH 181B - Intro/Math Statistics II (B) SP2153 20 77.8% 77.8% 12.06 B+ (3.67) B+ (3.43)
Ciotti, Benjamin MATH 183 - Statistical Methods (A) SP21268 105 67.6% 67.3% 8.70 B (3.21) B (3.21)
Kane, Daniel Mertz MATH 184 - Enumerative Combinatorics (A) SP2189 40 87.5% 90.0% 11.10 B- (2.97) B- (2.86)
Xu, Ronghui MATH 185 - Intro to Computational Stats (A) SP2186 13 100.0% 100.0% 8.65 A (4.00) B+ (3.57)
Bucur, Alina Ioana MATH 187B - Math of Modern Cryptography (A) SP2165 59 79.7% 86.4% 7.79 B+ (3.65) A- (3.77)
Sam, Steven V MATH 188 - Algebraic Combinatorics (A) SP2117 9 88.9% 100.0% 11.83 A- (3.83) N/A
Schwartzman, Armin MATH 189 - Data Analysis and Inference (A) SP21282 90 82.4% 80.0% 9.24 B+ (3.69) B+ (3.66)
Rhoades, Brendon Patrick MATH 190B - Foundations of Topology II (A) SP218 7 100.0% 100.0% 8.21 A (4.00) N/A
Roberts, Justin Deritter MATH 191 - Topics In Topology (A) SP2123 10 100.0% 100.0% 8.50 A- (3.78) B+ (3.66)
Puha, Amber Lynn MATH 194 - The Mathematics of Finance (A) SP21124 45 81.0% 76.2% 8.60 B+ (3.68) B+ (3.49)
Suk, Andrew Hoon MATH 20A - Calculus/Science & Engineering (A) SP2195 47 95.7% 97.8% 5.92 B+ (3.41) B+ (3.39)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (A) SP21217 85 88.0% 92.8% 7.16 B (3.20) B- (2.99)
Zhang, Yuming MATH 20B - Calculus/Science & Engineering (B) SP21161 55 71.7% 56.9% 7.29 B (3.12) B- (2.76)
Hammock, Frances H MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP21208 88 83.5% 89.2% 6.97 B+ (3.35) B- (3.00)
Copeland, Daniel Reuben MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP2199 32 57.1% 53.6% 8.36 B- (2.82) C+ (2.65)
Stapleton, David John MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP21232 118 97.3% 98.2% 6.64 B+ (3.47) B+ (3.36)
Xu, Zhouli MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) SP21114 49 93.9% 83.7% 5.92 B+ (3.67) B+ (3.41)
Mohammadi, Amir MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) SP21172 72 91.3% 89.9% 5.75 B+ (3.33) B+ (3.32)
Alberts, Brandon MATH 20D - Intro/Differential Equations (A) SP21166 142 84.5% 91.5% 7.45 B (3.21) B- (2.99)
Xiao, Ming MATH 20D - Intro/Differential Equations (B) SP21292 134 95.5% 94.7% 6.30 A- (3.77) B+ (3.48)
Roberts, Justin Deritter MATH 20D - Intro/Differential Equations (C) SP21215 91 94.3% 85.2% 6.11 B+ (3.60) B+ (3.38)
Um, Ko Woon MATH 20E - Vector Calculus (A) SP21260 112 78.2% 88.2% 7.73 B+ (3.33) B (3.12)
Pillai, Mohandas K MATH 20E - Vector Calculus (B) SP21197 83 82.7% 76.5% 6.57 B+ (3.45) B (3.27)
Ciotti, Benjamin MATH 20E - Vector Calculus (C) SP2184 33 74.2% 61.3% 6.57 B+ (3.32) B (3.27)
Lebl, Jiri MATH 31CH - Honors Vector Calculus (A) SP2141 26 84.6% 88.5% 10.27 B+ (3.52) B (3.27)
Liu, Shuang MATH 3C - Precalculus (A) SP2168 21 95.2% 95.2% 5.74 B (3.24) C+ (2.63)
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (A) SP2117 12 100.0% 100.0% 0.50 B+ (3.67) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP2119 13 92.3% 92.3% 1.27 A- (3.92) N/A
Salehi Golsefidy, Alireza MATH 100B - Abstract Algebra II (A) WI2160 49 87.8% 93.9% 11.32 B (3.26) B+ (3.40)
Dressler, Mareike MATH 102 - Applied Linear Algebra (A) WI21104 43 63.4% 51.2% 9.04 B (3.29) B (3.10)
Rabin, Jeffrey Mark MATH 102 - Applied Linear Algebra (B) WI2148 14 78.6% 71.4% 8.50 B- (2.92) B- (2.96)
Green, Nathan E MATH 103A - Modern Algebra I (A) WI2156 45 84.4% 100.0% 7.86 B (3.10) B (3.26)
Wenzl, Hans G MATH 103A - Modern Algebra I (B) WI2120 8 85.7% 85.7% 8.21 B (3.25) C+ (2.48)
Copeland, Daniel Reuben MATH 103A - Modern Algebra I (C) WI2160 26 100.0% 100.0% 7.11 B+ (3.38) B (3.10)
Sorensen, Claus M MATH 103B - Modern Algebra II (A) WI2150 39 61.5% 71.8% 10.55 B- (2.93) B (3.21)
Greenfeld, Be'Eri MATH 103B - Modern Algebra II (B) WI2155 24 72.2% 81.3% 6.28 A- (3.75) A- (3.99)
Popescu, Cristian D. MATH 104A - Number Theory I (A) WI2114 4 100.0% 100.0% 7.00 B (3.00) N/A
Popescu, Cristian D. MATH 105 - Basic Number Theory (A) WI2128 9 100.0% 100.0% 8.25 A- (3.75) B- (2.83)
Savvas, Michail MATH 109 - Mathematical Reasoning (A) WI2163 27 84.6% 96.2% 7.81 B+ (3.43) B+ (3.56)
Savvas, Michail MATH 109 - Mathematical Reasoning (B) WI2166 23 100.0% 100.0% 8.50 A- (3.76) B+ (3.65)
Tamam, Nattalie MATH 109 - Mathematical Reasoning (C) WI2138 12 63.6% 80.0% 6.32 B+ (3.50) B (3.16)
Suk, Andrew Hoon MATH 109 - Mathematical Reasoning (D) WI2168 58 98.3% 100.0% 6.60 B+ (3.62) B+ (3.69)
Xiao, Ming MATH 109 - Mathematical Reasoning (E) WI2170 35 97.1% 97.0% 6.80 B+ (3.69) B+ (3.46)
Upton, James Thomas MATH 10A - Calculus I (A) WI21272 121 78.2% 76.7% 6.18 B- (2.92) B (3.03)
Fulek, Radoslav MATH 10A - Calculus I (B) WI21188 120 88.0% 66.7% 5.36 B+ (3.45) B+ (3.44)
Au, Benson C MATH 10A - Calculus I (C) WI21156 64 86.9% 86.9% 6.34 B (3.25) B- (2.81)
Bowers, Adam R. MATH 10B - Calculus II (A) WI21326 161 70.6% 81.3% 6.80 B (3.13) B (3.01)
Ezzati, Parinaz MATH 10B - Calculus II (B) WI21205 113 44.4% 27.1% 6.98 B (3.00) B- (2.95)
Ciotti, Benjamin MATH 10B - Calculus II (C) WI21214 97 56.4% 69.1% 6.52 B (3.15) B (3.05)
Ciotti, Benjamin MATH 10B - Calculus II (D) WI21210 123 57.9% 80.0% 6.73 B (3.19) B+ (3.35)
Dressler, Mareike MATH 10C - Calculus III (A) WI21177 76 81.1% 91.9% 6.58 B+ (3.40) B (3.11)
Lee, Kisun MATH 10C - Calculus III (B) WI21148 100 84.7% 87.8% 6.81 B+ (3.37) B+ (3.53)
Swanson, Joshua P MATH 11 - Calculus-Based Prob & Stats (A) WI21282 156 64.5% 62.5% 7.12 B (3.02) B (3.18)
Ezzati, Parinaz MATH 11 - Calculus-Based Prob & Stats (B) WI21182 84 69.5% 44.4% 6.30 B (3.26) B (3.01)
Xiao, Ming MATH 120A - Elements of Complex Analysis (A) WI2172 36 94.1% 97.1% 6.85 B+ (3.69) B+ (3.50)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI2123 18 100.0% 100.0% 4.83 B+ (3.57) B+ (3.40)
Zhang, Yuming MATH 130 - Diff Eqs & Dynamical Systems (A) WI2165 21 84.2% 84.2% 7.97 B (3.13) B (3.16)
Mohammadi, Amir MATH 140A - Foundations of Real Analysis I (A) WI2138 19 88.9% 88.9% 13.50 B (3.07) B- (2.86)
Seward, Brandon M. MATH 140B - Foundations/Real Analysis II (A) WI2124 11 100.0% 100.0% 13.23 A- (3.78) B- (2.82)
Spolaor, Luca MATH 140B - Foundations/Real Analysis II (B) WI2113 6 100.0% 100.0% 11.83 A- (3.80) N/A
Eggers, John Dietrich MATH 142A - Introduction to Analysis I (A) WI2170 19 78.9% 94.7% 9.66 B (3.25) B+ (3.42)
Wiersma, Matthew T. MATH 142A - Introduction to Analysis I (B) WI2132 24 79.2% 87.5% 9.00 B (3.00) B- (2.86)
Nemish, Yuriy MATH 142A - Introduction to Analysis I (C) WI2166 55 58.2% 54.5% 9.34 B (3.00) B- (2.88)
Wenzl, Hans G MATH 142B - Introduction to Analysis II (A) WI2135 13 61.5% 75.0% 8.65 B (3.09) C+ (2.39)
Zucker, Andrew MATH 142B - Introduction to Analysis II (B) WI2161 19 31.6% 57.9% 10.39 B- (2.83) B- (2.83)
Ioana, Adrian MATH 142B - Introduction to Analysis II (C) WI2170 17 82.4% 94.1% 8.62 B+ (3.36) B (3.05)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) WI2112 6 100.0% 100.0% 8.83 B+ (3.40) N/A
Luo, Ruth MATH 152 - Applicable Math and Computing (A) WI2194 41 100.0% 97.6% 6.65 B+ (3.58) B+ (3.39)
Bowers, Adam R. MATH 153 - Geometry for Secondary Teacher (A) WI2130 14 91.7% 90.9% 6.33 B+ (3.64) B (3.00)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) WI21147 67 90.8% 93.8% 7.58 B+ (3.48) B+ (3.51)
Grubb, Thomas MATH 157 - Intro to Mathematical Software (A) WI2179 54 100.0% 100.0% 7.31 A- (3.79) A- (3.73)
Suk, Andrew Hoon MATH 158 - Extremal Combinatorics/Graph (A) WI2128 23 95.7% 95.7% 7.20 A- (3.76) B+ (3.66)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (A) WI21127 100 95.9% 99.0% 7.41 A- (3.84) B+ (3.67)
Dumitriu, Ioana MATH 170A - Intro Numerical Analys/Linear (B) WI2152 31 93.5% 100.0% 7.47 B+ (3.42) B (3.08)
Tian, Xiaochuan MATH 170B - Intro/Numerical Analy/Approxim (A) WI2149 16 93.8% 87.5% 7.75 B+ (3.50) B (3.07)
Tian, Xiaochuan MATH 170B - Intro/Numerical Analy/Approxim (B) WI2151 11 81.8% 81.8% 6.68 A- (3.80) B (3.22)
Gill, Philip E. MATH 171A - Intro Num Optimiz/Linear Prog (A) WI21214 67 78.7% 80.3% 8.50 B (3.28) B+ (3.40)
Licht, Martin W MATH 174 - Numericl Methods/Physcl Modlng (A) WI2112 12 83.3% 75.0% 7.17 B+ (3.50) N/A
De Vleming, Kristin Elizab MATH 18 - Linear Algebra (A) WI21298 167 98.2% 100.0% 6.22 A- (3.73) B+ (3.56)
Anzaldo, Leesa B MATH 18 - Linear Algebra (B) WI21216 108 88.5% 92.3% 6.56 B+ (3.48) B+ (3.45)
Chan, Pak Yeung MATH 18 - Linear Algebra (C) WI21189 88 86.0% 76.5% 6.41 B+ (3.36) B (3.27)
Xu, Hang MATH 18 - Linear Algebra (D) WI21206 110 92.7% 95.5% 6.67 B+ (3.54) B+ (3.51)
Agarwal, Pooja MATH 18 - Linear Algebra (E) WI2162 33 78.1% 56.3% 6.56 B (3.17) B- (2.73)
Zucker, Andrew MATH 18 - Linear Algebra (F) WI21164 83 68.3% 46.3% 7.87 B (3.10) B- (2.80)
Au, Benson C MATH 180A - Introduction to Probability (A) WI21122 95 67.4% 53.7% 8.82 B (3.06) B (3.11)
Nemish, Yuriy MATH 180A - Introduction to Probability (B) WI21128 105 64.4% 55.8% 8.60 B- (2.99) B- (3.00)
Meyer, David A. MATH 180B - Intro/Stochastic Processes I (A) WI21106 32 86.7% 83.3% 9.23 B+ (3.57) B+ (3.46)
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (B) WI2147 18 100.0% 94.4% 6.61 A- (3.76) B (3.13)
Zhang, Danna MATH 181A - Intro/Math Statistics I (A) WI21137 41 94.9% 92.3% 7.58 B+ (3.68) B+ (3.38)
Zhang, Danna MATH 181A - Intro/Math Statistics I (B) WI21115 43 100.0% 97.5% 7.60 B+ (3.54) B+ (3.40)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (A) WI2133 15 53.3% 40.0% 10.50 A- (3.92) A- (3.91)
Quarfoot, David James MATH 183 - Statistical Methods (A) WI21254 117 88.7% 89.5% 10.48 B+ (3.60) B+ (3.45)
Rhoades, Brendon Patrick MATH 184 - Enumerative Combinatorics (A) WI2159 31 93.3% 93.3% 9.23 B+ (3.57) B+ (3.51)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI2193 36 91.7% 100.0% 6.61 A- (3.72) B+ (3.55)
Kedlaya, Kiran S. MATH 187A - Introduction to Cryptography (A) WI21132 121 99.2% 96.7% 5.78 A- (3.77) A- (3.82)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (B) WI21175 169 100.0% 99.4% 6.27 A- (3.87) A- (3.89)
Bradic, Jelena MATH 189 - Data Analysis and Inference (B) WI21138 47 73.3% 57.8% 9.41 B+ (3.58) B+ (3.46)
McElroy, Tucker S. MATH 189 - Data Analysis and Inference (C) WI21141 59 82.5% 67.3% 6.67 A- (3.88) A- (3.87)
Manners, Frederick MATH 190A - Foundations of Topology I (A) WI2118 6 100.0% 100.0% 6.50 A (4.00) N/A
Quarfoot, David James MATH 2 - Intro to College Mathematics (A) WI2110 5 80.0% 100.0% 8.90 B- (2.75) N/A
Anzaldo, Leesa B MATH 20A - Calculus/Science & Engineering (A) WI21149 63 93.5% 91.9% 5.52 B+ (3.46) B (3.28)
Green, Nathan E MATH 20A - Calculus/Science & Engineering (B) WI21150 85 100.0% 98.8% 5.61 B+ (3.35) B- (2.77)
Licht, Martin W MATH 20B - Calculus/Science & Engineering (A) WI21297 221 97.3% 88.5% 5.39 A- (3.81) A- (3.75)
Liu, Shuang MATH 20B - Calculus/Science & Engineering (B) WI21221 162 91.3% 77.6% 5.87 B+ (3.52) A- (3.71)
Fulek, Radoslav MATH 20B - Calculus/Science & Engineering (C) WI21253 191 87.4% 64.7% 5.85 B+ (3.63) B+ (3.67)
Hammock, Frances H MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI21202 107 95.3% 97.1% 7.42 B+ (3.49) B+ (3.34)
Hammock, Frances H MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI21187 96 87.6% 93.3% 7.03 B+ (3.33) B (3.26)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI21197 100 90.0% 75.8% 6.48 B+ (3.38) B+ (3.44)
Swanson, Joshua P MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI2176 38 68.4% 63.2% 7.39 B- (2.86) B (3.08)
Vavalis, Emmanuel MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI21182 83 78.8% 49.4% 6.33 A- (3.80) B+ (3.60)
Pillai, Mohandas K MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) WI2191 45 83.7% 81.0% 6.60 B+ (3.39) B (3.21)
Alberts, Brandon MATH 20D - Intro/Differential Equations (A) WI21122 111 82.9% 90.1% 8.52 B+ (3.41) B- (2.88)
Tamam, Nattalie MATH 20D - Intro/Differential Equations (B) WI21176 84 80.5% 68.3% 7.72 B+ (3.42) B- (2.99)
Lee, Kisun MATH 20D - Intro/Differential Equations (C) WI21189 161 87.0% 88.8% 7.54 B+ (3.34) B+ (3.60)
Vavalis, Emmanuel MATH 20D - Intro/Differential Equations (D) WI21152 88 50.6% 16.3% 6.98 B+ (3.40) B+ (3.39)
Lebl, Jiri MATH 20E - Vector Calculus (A) WI21184 85 69.5% 48.1% 7.63 B (3.25) B+ (3.35)
Roberts, Justin Deritter MATH 20E - Vector Calculus (B) WI21207 109 89.6% 91.3% 7.27 B+ (3.51) B (3.12)
Pillai, Mohandas K MATH 20E - Vector Calculus (C) WI2187 42 75.6% 68.3% 7.50 B (3.29) B (3.04)
Chow, Bennett MATH 31BH - Honors Multivariable Calculus (A) WI2141 26 92.3% 84.0% 9.35 A- (3.73) A- (3.83)
Um, Ko Woon MATH 3C - Precalculus (A) WI2155 17 100.0% 93.8% 7.25 B (3.13) C+ (2.49)
Um, Ko Woon MATH 3C - Precalculus (B) WI2139 12 90.9% 100.0% 5.41 C+ (2.60) C (2.28)
Um, Ko Woon MATH 3C - Precalculus (C) WI2148 18 88.9% 100.0% 7.28 B- (2.73) C+ (2.58)
Zhong, Suhan MATH 4C - Precalculus for Sci & Engn (A) WI2143 16 46.7% 38.5% 5.57 C+ (2.67) B (3.26)
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI2120 15 100.0% 100.0% 1.70 A- (3.87) A- (3.99)
Sorensen, Claus M MATH 100A - Abstract Algebra I (A) FA2055 49 81.3% 78.7% 9.88 B (3.02) B (3.21)
Pollack, Aaron MATH 100A - Abstract Algebra I (B) FA2068 24 91.7% 75.0% 8.76 B+ (3.68) B+ (3.43)
Dressler, Mareike MATH 102 - Applied Linear Algebra (A) FA2099 36 65.7% 64.7% 10.27 B+ (3.41) C+ (2.44)
Vavalis, Emmanuel MATH 102 - Applied Linear Algebra (B) FA2099 29 67.9% 60.7% 4.71 B+ (3.44) B+ (3.40)
Upton, James Thomas MATH 103A - Modern Algebra I (A) FA2054 22 71.4% 81.0% 7.93 B- (2.90) B- (2.94)
Sorensen, Claus M MATH 103A - Modern Algebra I (B) FA2065 57 63.2% 68.4% 7.97 B- (2.93) B (3.20)
Lee, Kisun MATH 103A - Modern Algebra I (C) FA2020 7 42.9% 57.1% 9.64 B (3.29) B (3.21)
Griffin, Sean Thomas MATH 103A - Modern Algebra I (D) FA2020 8 100.0% 100.0% 5.93 B+ (3.43) B (3.29)
Ciotti, Benjamin MATH 109 - Mathematical Reasoning (A) FA2066 32 90.0% 90.0% 10.50 B (3.28) B (3.03)
Swanson, Joshua P MATH 109 - Mathematical Reasoning (B) FA2058 24 82.6% 60.9% 9.80 B- (2.74) B- (2.86)
Wiersma, Matthew T. MATH 109 - Mathematical Reasoning (C) FA2067 52 96.2% 96.2% 7.17 B+ (3.47) B- (2.92)
Chow, Bennett MATH 109 - Mathematical Reasoning (D) FA2073 30 100.0% 93.1% 8.78 B+ (3.64) B+ (3.34)
Copeland, Daniel Reuben MATH 109 - Mathematical Reasoning (E) FA2059 22 78.9% 83.3% 9.40 B (3.26) B- (2.94)
Eggers, John Dietrich MATH 10A - Calculus I (A) FA20364 187 81.4% 80.1% 6.00 B+ (3.34) B+ (3.34)
Griffin, Sean Thomas MATH 10A - Calculus I (B) FA20214 110 85.0% 82.1% 5.15 B (3.29) B (3.21)
Cloninger, Alexander MATH 10A - Calculus I (C) FA20293 187 81.4% 86.2% 5.69 B (3.15) B+ (3.30)
De Vleming, Kristin Elizab MATH 10B - Calculus II (A) FA20296 186 97.8% 99.5% 6.05 B+ (3.52) B+ (3.46)
Gui, Toni Tong MATH 10B - Calculus II (B) FA20344 178 74.1% 59.3% 5.80 B+ (3.37) B+ (3.32)
Um, Ko Woon MATH 10C - Calculus III (A) FA20257 94 83.5% 92.3% 7.16 B (3.14) B (3.10)
Au, Benson C MATH 10C - Calculus III (B) FA20144 66 89.1% 93.7% 7.34 B (3.23) B (3.08)
Ezzati, Parinaz MATH 11 - Calculus-Based Prob & Stats (A) FA20327 205 36.5% 15.3% 8.77 B (3.17) B (3.15)
Schweinsberg, Jason MATH 11 - Calculus-Based Prob & Stats (B) FA20340 181 85.5% 87.8% 9.02 B (3.23) B- (2.95)
Wenzl, Hans G MATH 110 - Intro/Partial Diff Equations (A) FA2061 24 68.2% 50.0% 6.88 B (3.10) C+ (2.32)
Cloninger, Alexander MATH 111A - Mathematical Modeling I (A) FA2032 14 85.7% 100.0% 6.04 A- (3.71) B+ (3.36)
Meyer, David A. MATH 111A - Mathematical Modeling I (B) FA2032 7 100.0% 100.0% 4.10 A- (3.80) A- (3.82)
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) FA2069 30 85.7% 92.9% 8.29 B (3.04) B- (2.97)
Seward, Brandon M. MATH 140A - Foundations of Real Analysis I (A) FA2042 14 76.9% 100.0% 12.65 C+ (2.40) C- (1.91)
Zlatos, Andrej MATH 140A - Foundations of Real Analysis I (C) FA2029 15 86.7% 85.7% 13.03 B+ (3.47) B- (2.73)
Agarwal, Pooja MATH 142A - Introduction to Analysis I (A) FA2060 20 40.0% 21.1% 10.50 C (2.15) B- (2.71)
Pillai, Mohandas K MATH 142A - Introduction to Analysis I (B) FA2056 15 76.9% 84.6% 10.07 B- (2.86) C+ (2.68)
Zucker, Andrew MATH 142A - Introduction to Analysis I (C) FA2035 16 43.8% 62.5% 10.38 C+ (2.69) C+ (2.68)
Ioana, Adrian MATH 142A - Introduction to Analysis I (D) FA2068 20 50.0% 80.0% 10.60 C+ (2.65) C+ (2.61)
Bejenaru, Ioan MATH 144 - Intro to Fourier Analysis (A) FA2014 5 100.0% 100.0% 11.30 B+ (3.40) N/A
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA2030 9 100.0% 100.0% 8.50 B (3.25) B+ (3.34)
Tesler, Glenn MATH 154 - Discrete Math & Graph Theory (A) FA20123 46 100.0% 100.0% 8.76 B+ (3.46) B- (2.85)
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) FA2048 13 100.0% 100.0% 11.00 B (3.25) B (3.11)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (A) FA20126 48 91.7% 93.8% 7.52 B+ (3.69) B+ (3.61)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (B) FA20144 60 94.9% 98.3% 7.69 A- (3.86) B+ (3.68)
Saab, Rayan MATH 173A - Optimization/Data Science I (A) FA2067 29 89.3% 96.4% 11.02 B (3.08) B (3.12)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (A) FA20274 247 98.0% 99.6% 5.71 A- (3.78) B+ (3.55)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (B) FA20207 194 98.5% 99.0% 5.22 A- (3.86) B+ (3.59)
Alberts, Brandon MATH 18 - Linear Algebra (C) FA20192 172 90.5% 91.7% 6.48 B+ (3.30) B- (2.86)
Luo, Ruth MATH 18 - Linear Algebra (D) FA20176 161 96.9% 98.8% 5.78 B+ (3.62) B+ (3.49)
Chan, Pak Yeung MATH 18 - Linear Algebra (E) FA20148 139 89.8% 86.9% 6.97 B+ (3.50) B+ (3.45)
Meyer, David A. MATH 180A - Introduction to Probability (A) FA20214 87 86.9% 90.5% 7.92 B+ (3.38) B (3.12)
Nemish, Yuriy MATH 180A - Introduction to Probability (B) FA20193 171 65.3% 54.1% 9.34 B (3.09) B- (2.82)
Au, Benson C MATH 180A - Introduction to Probability (C) FA20130 120 76.7% 58.5% 8.62 B (3.02) B (3.00)
Nemish, Yuriy MATH 180C - Intro/Stochastic Processes II (A) FA2043 40 77.5% 89.7% 9.30 B+ (3.47) B (3.29)
Zhou, Wenxin MATH 181B - Intro/Math Statistics II (A) FA2063 23 90.0% 75.0% 8.40 B (3.25) B (3.25)
Ezzati, Parinaz MATH 183 - Statistical Methods (A) FA20362 177 36.8% 20.7% 5.97 B+ (3.39) A- (3.75)
Suk, Andrew Hoon MATH 184 - Enumerative Combinatorics (A) FA20108 80 98.8% 98.7% 7.00 A- (3.76) B+ (3.44)
Zhou, Wenxin MATH 185 - Intro to Computational Stats (A) FA20134 37 82.9% 85.7% 9.59 B+ (3.51) B+ (3.45)
Quarfoot, David James MATH 2 - Intro to College Mathematics (A) FA2028 14 92.3% 83.3% 8.35 B (3.09) C+ (2.70)
Quarfoot, David James MATH 2 - Intro to College Mathematics (B) FA2020 12 91.7% 91.7% 6.00 B- (2.75) C+ (2.34)
Tian, Xiaochuan MATH 20A - Calculus/Science & Engineering (A) FA20206 101 90.7% 83.2% 6.27 B+ (3.61) B+ (3.46)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (B) FA20205 116 90.2% 91.0% 6.09 B+ (3.43) B+ (3.44)
Wiersma, Matthew T. MATH 20A - Calculus/Science & Engineering (C) FA20174 94 92.3% 83.3% 6.13 B+ (3.37) B (3.25)
Driver, Bruce K MATH 20A - Calculus/Science & Engineering (D) FA20198 109 96.1% 88.3% 5.56 B+ (3.51) B+ (3.67)
Anzaldo, Leesa B MATH 20B - Calculus/Science & Engineering (A) FA20350 192 94.5% 95.6% 6.13 B+ (3.45) B+ (3.45)
Ciotti, Benjamin MATH 20B - Calculus/Science & Engineering (B) FA20199 125 85.4% 73.8% 7.43 B (3.05) C+ (2.59)
Lebl, Jiri MATH 20B - Calculus/Science & Engineering (C) FA20216 101 93.7% 76.3% 6.07 B+ (3.69) B+ (3.42)
Green, Nathan E MATH 20B - Calculus/Science & Engineering (D) FA20297 259 85.9% 88.1% 6.59 B (3.05) C+ (2.68)
Fulek, Radoslav MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA20209 120 72.0% 42.6% 6.94 B (3.24) B (3.28)
Stapleton, David John MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA20223 145 98.6% 100.0% 5.35 A- (3.83) A- (3.81)
Swanson, Joshua P MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA20134 74 78.9% 64.3% 8.33 B (3.14) B (3.00)
Xu, Zhouli MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA20216 125 91.4% 86.2% 6.03 B+ (3.57) B (3.14)
Xu, Hang MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA20218 119 96.5% 99.1% 6.57 B+ (3.68) B+ (3.61)
Xu, Hang MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) FA20219 114 97.3% 98.2% 7.55 B+ (3.53) B+ (3.48)
Ioana, Adrian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (G) FA20210 114 93.7% 93.6% 6.86 B+ (3.68) B (3.04)
Zhang, Yuming MATH 20D - Intro/Differential Equations (A) FA20143 123 71.1% 55.4% 7.28 B (3.10) B (3.16)
Um, Ko Woon MATH 20D - Intro/Differential Equations (B) FA20215 98 94.7% 93.5% 6.96 B+ (3.53) B (3.12)
Zhang, Yuming MATH 20D - Intro/Differential Equations (C) FA2091 68 82.4% 61.8% 6.56 B (3.22) B- (2.86)
Vavalis, Emmanuel MATH 20D - Intro/Differential Equations (D) FA20154 74 54.9% 45.7% 6.22 B- (2.85) B (3.05)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) FA20218 118 88.9% 96.5% 8.14 B+ (3.54) B (3.01)
Wenzl, Hans G MATH 20E - Vector Calculus (B) FA20204 80 80.0% 66.2% 7.30 B (3.09) B- (2.85)
Chow, Bennett MATH 20E - Vector Calculus (C) FA20181 77 79.5% 83.6% 8.05 B+ (3.54) B (3.29)
Novak, Jonathan I MATH 31AH - Honors Linear Algebra (A) FA2058 45 95.3% 97.7% 10.05 A- (3.84) B+ (3.60)
Hammock, Frances H MATH 3C - Precalculus (A) FA20106 55 80.0% 83.6% 6.68 B- (2.92) C+ (2.41)
Hammock, Frances H MATH 3C - Precalculus (B) FA20105 46 86.7% 86.7% 6.14 B- (2.98) C+ (2.32)
Hammock, Frances H MATH 3C - Precalculus (C) FA20106 55 78.4% 88.0% 7.13 B (3.04) C+ (2.43)
Bowers, Adam R. MATH 3C - Precalculus (D) FA20106 42 66.7% 87.2% 5.58 B- (2.95) C+ (2.39)
Bowers, Adam R. MATH 3C - Precalculus (E) FA20101 40 84.2% 91.9% 6.87 B- (2.89) C+ (2.53)
Anzaldo, Leesa B MATH 4C - Precalculus for Sci & Engn (A) FA20102 53 90.4% 96.0% 5.86 B+ (3.52) B (3.11)
Tu, Yucheng MATH 4C - Precalculus for Sci & Engn (B) FA2048 27 96.0% 76.0% 4.74 B+ (3.32) B (3.06)
Wang, Jiangchuanhai MATH 4C - Precalculus for Sci & Engn (C) FA2066 35 72.7% 54.5% 5.68 B- (2.88) B- (2.80)
Ioana, Adrian MATH 96 - Putnam Seminar (A) FA2030 15 92.3% 100.0% 2.64 N/A N/A
Samaniego, Kimberly Anne OBrien MATH 2 - Intro to College Mathematics (A) S32026 14 64.3% 71.4% 9.21 B- (2.93) B (3.10)
Hammock, Frances H MATH 3C - Precalculus (A) S32056 29 92.9% 96.3% 7.29 B- (2.79) B (3.12)
Ciotti, Benjamin MATH 3C - Precalculus (B) S32067 32 87.5% 86.2% 8.25 B- (2.77) B- (2.87)
Milbourne, Hayley Miles Leighton MATH 3C - Precalculus (C) S32072 42 89.7% 92.3% 6.99 B (3.29) B (3.13)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) S22065 11 40.0% 22.2% 13.30 B+ (3.56) B- (2.95)
Kitsela, Roman MATH 103B - Modern Algebra II (A) S22074 7 40.0% 40.0% 12.90 C (2.20) B (3.18)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S22071 13 75.0% 75.0% 13.73 B+ (3.38) B (3.07)
Bowers, Adam R. MATH 10A - Calculus I (A) S22052 38 94.4% 88.9% 7.64 B (3.03) B (3.01)
Jones, Miles E MATH 10A - Calculus I (B) S22058 33 93.8% 93.8% 5.19 B (3.29) B (3.22)
Ceccherini-Silberstein, Tullio MATH 10B - Calculus II (A) S220121 33 90.0% 75.9% 6.90 B (3.26) B- (2.78)
Rotar, Vladimir MATH 10C - Calculus III (A) S220146 105 87.6% 91.3% 8.61 B+ (3.38) B+ (3.47)
Bowers, Adam R. MATH 110 - Intro/Partial Diff Equations (A) S22082 16 75.0% 86.7% 11.50 B- (2.87) C+ (2.67)
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) S220111 15 80.0% 100.0% 13.43 B+ (3.40) B+ (3.33)
Harel, Guershon MATH 18 - Linear Algebra (A) S220119 47 44.2% 25.6% 12.01 B- (2.86) C+ (2.32)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S22059 38 100.0% 97.4% 9.13 B+ (3.59) B+ (3.62)
Kroes, Daniel MATH 20A - Calculus/Science & Engineering (A) S22048 36 91.4% 85.3% 8.11 B (3.00) B (3.24)
Perkins, Rudolph Bronson MATH 20A - Calculus/Science & Engineering (B) S22033 12 90.0% 80.0% 10.70 B+ (3.40) C+ (2.48)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (A) S22090 21 80.0% 89.5% 10.10 B (3.00) C+ (2.60)
Ceccherini-Silberstein, Tullio MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S220205 65 90.0% 76.3% 9.18 B+ (3.54) B+ (3.33)
Um, Ko Woon MATH 20D - Intro/Differential Equations (A) S220112 35 97.0% 93.9% 9.53 B+ (3.62) B+ (3.36)
Zhong, Suhan MATH 20D - Intro/Differential Equations (B) S22036 5 80.0% 80.0% 9.70 A- (3.80) B (3.16)
Kitsela, Roman MATH 20E - Vector Calculus (A) S220187 39 59.0% 61.5% 11.73 B+ (3.47) B (3.20)
Tiefenbruck, Janine LoBue MATH 4C - Precalculus for Sci & Engn (A) S22038 28 92.6% 85.2% 7.46 B (3.30) B (3.17)
Kitsela, Roman MATH 103A - Modern Algebra I (A) S120132 20 68.4% 57.9% 12.30 B- (2.89) B (3.08)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S120112 22 94.7% 94.7% 10.30 B+ (3.60) B (3.22)
Ceccherini-Silberstein, Tullio MATH 10A - Calculus I (A) S12097 20 68.4% 68.4% 8.92 C+ (2.35) B (3.09)
Rotar, Vladimir MATH 10B - Calculus II (A) S12060 32 90.6% 96.9% 7.56 B (3.06) B (3.28)
Gui, Toni Tong MATH 10B - Calculus II (B) S12048 11 72.7% 54.5% 7.95 B (3.20) B (3.13)
Bowers, Adam R. MATH 142A - Introduction to Analysis I (A) S120184 43 71.1% 73.0% 14.70 B+ (3.33) B- (3.00)
Bach, Quang Tran MATH 18 - Linear Algebra (A) S120248 62 91.4% 87.9% 10.12 B+ (3.45) B (3.22)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S120101 57 98.2% 94.6% 8.54 B+ (3.43) B+ (3.53)
Mohanty, Sara MATH 20A - Calculus/Science & Engineering (A) S12046 15 100.0% 92.3% 5.73 B (3.08) C+ (2.46)
Ceccherini-Silberstein, Tullio MATH 20B - Calculus/Science & Engineering (A) S12084 22 71.4% 57.9% 6.79 B+ (3.38) B (3.05)
Bach, Quang Tran MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S120156 37 57.6% 56.3% 10.22 C+ (2.39) B- (2.78)
Mohanty, Sara MATH 20D - Intro/Differential Equations (A) S12099 18 77.8% 66.7% 8.61 B+ (3.56) C+ (2.69)
Kitsela, Roman MATH 20E - Vector Calculus (A) S120168 47 65.2% 61.4% 12.24 B+ (3.40) B+ (3.33)
Kwan, Brian MATH 4C - Precalculus for Sci & Engn (A) S12016 9 77.8% 88.9% 6.28 B+ (3.63) N/A
Rhoades, Brendon Patrick MATH 100C - Abstract Algebra III (A) SP2030 19 94.7% 94.7% 9.55 B+ (3.43) B+ (3.39)
Tamam, Nattalie MATH 102 - Applied Linear Algebra (A) SP20104 29 75.0% 75.0% 9.02 B- (2.93) B (3.11)
Dressler, Mareike MATH 102 - Applied Linear Algebra (B) SP20133 42 78.9% 86.1% 7.50 B+ (3.43) B (3.17)
Mohammadi, Amir MATH 103B - Modern Algebra II (A) SP2040 9 44.4% 77.8% 6.72 B- (2.75) B- (2.99)
Wiersma, Matthew T. MATH 103B - Modern Algebra II (B) SP20106 83 78.3% 89.0% 7.95 B (3.27) B (3.12)
Anzaldo, Leesa B MATH 109 - Mathematical Reasoning (A) SP2067 30 93.1% 92.9% 7.81 B+ (3.54) B+ (3.58)
Zhang, Yuming MATH 109 - Mathematical Reasoning (B) SP2030 12 66.7% 75.0% 9.00 B+ (3.50) B+ (3.62)
Chow, Bennett MATH 109 - Mathematical Reasoning (C) SP2060 14 92.9% 92.9% 9.64 A- (3.70) B+ (3.68)
Suk, Andrew Hoon MATH 109 - Mathematical Reasoning (D) SP2067 51 98.0% 100.0% 5.36 A- (3.86) A- (3.90)
Sterbenz, Jacob MATH 109 - Mathematical Reasoning (E) SP2053 24 81.8% 95.2% 8.85 B+ (3.62) A- (3.77)
Perkins, Rudolph Bronson MATH 10A - Calculus I (A) SP20255 109 64.5% 49.5% 6.56 C+ (2.61) B- (2.95)
Hammock, Frances H MATH 10B - Calculus II (A) SP20202 89 83.5% 89.4% 7.35 B (3.04) B- (2.94)
Bowers, Adam R. MATH 10B - Calculus II (B) SP20171 64 70.3% 78.1% 7.69 B (3.20) C+ (2.46)
Perkins, Rudolph Bronson MATH 10B - Calculus II (C) SP20158 61 55.4% 64.3% 7.20 B- (2.79) B- (2.94)
Yang, Zi MATH 10C - Calculus III (A) SP20190 80 79.5% 87.2% 6.02 B+ (3.31) B+ (3.36)
Ferrara, Joseph William MATH 10C - Calculus III (B) SP20217 65 92.3% 92.3% 6.10 B+ (3.46) B+ (3.57)
Ciotti, Benjamin MATH 11 - Calculus-Based Prob & Stats (A) SP20223 106 72.0% 58.2% 7.84 B (3.14) B+ (3.44)
Bach, Quang Tran MATH 11 - Calculus-Based Prob & Stats (B) SP20226 198 90.4% 93.4% 5.78 B+ (3.49) B+ (3.58)
McKernan, James MATH 120B - Applied Complex Analysis (A) SP2046 18 77.8% 66.7% 10.61 B+ (3.64) B+ (3.69)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP2021 15 100.0% 100.0% 5.30 B+ (3.58) A- (3.81)
Seward, Brandon M. MATH 140B - Foundations/Real Analysis II (A) SP2030 12 100.0% 100.0% 9.95 A- (3.75) B (3.03)
Saab, Rayan MATH 140C - Foundations/Real Analysis III (A) SP2042 18 94.4% 100.0% 9.28 A- (3.79) A- (3.75)
Bejenaru, Ioan MATH 142B - Introduction to Analysis II (A) SP2058 17 93.8% 93.8% 7.63 A- (3.71) B+ (3.40)
Manners, Frederick MATH 142B - Introduction to Analysis II (B) SP2027 8 87.5% 87.5% 8.75 B (3.25) B (3.25)
Xu, Hang MATH 142B - Introduction to Analysis II (C) SP2071 17 82.4% 93.8% 9.13 B+ (3.33) B+ (3.64)
Zlatos, Andrej MATH 148 - Analysis of Partial Diff Eqs (A) SP2020 7 85.7% 85.7% 10.79 B (3.00) B+ (3.57)
Kane, Daniel Mertz MATH 154 - Discrete Math & Graph Theory (A) SP20139 45 79.5% 84.1% 9.30 B (3.10) B+ (3.33)
Buss, Samuel R MATH 155B - Topics in Computer Graphics (A) SP2011 3 100.0% 100.0% 6.50 B+ (3.33) N/A
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP20109 46 95.1% 97.6% 5.82 B+ (3.59) B (3.19)
Dumitriu, Ioana MATH 170A - Intro Numerical Analys/Linear (A) SP20189 70 68.1% 84.1% 7.98 B (3.13) B+ (3.45)
Moosmueller, Caroline MATH 170B - Intro/Numerical Analy/Approxim (A) SP20118 83 89.0% 93.9% 7.51 B+ (3.49) B+ (3.49)
Licht, Martin W MATH 170C - Intro Numerical Analy/Ord Diff (B) SP2040 29 86.2% 82.8% 7.81 B+ (3.52) B+ (3.56)
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP2061 25 56.0% 50.0% 7.62 B (3.22) A- (3.79)
Saab, Rayan MATH 173B - Optimization/Data Science II (A) SP2031 14 100.0% 100.0% 8.21 B+ (3.63) A- (3.72)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP209 5 100.0% 100.0% 10.50 B+ (3.50) N/A
Kitsela, Roman MATH 18 - Linear Algebra (B) SP20230 113 57.7% 58.6% 8.38 B (3.27) B+ (3.59)
Roberts, Justin Deritter MATH 18 - Linear Algebra (C) SP20301 129 84.1% 77.6% 6.36 B+ (3.53) N/A
Xu, Hang MATH 18 - Linear Algebra (D) SP20191 69 89.4% 84.8% 6.50 B+ (3.61) A- (3.71)
Licht, Martin W MATH 18 - Linear Algebra (E) SP20137 44 88.6% 65.9% 5.59 A- (3.77) B+ (3.60)
Driver, Bruce K MATH 180B - Intro/Stochastic Processes I (A) SP2098 30 70.4% 74.1% 7.76 B+ (3.55) B (3.26)
Nemish, Yuriy MATH 180C - Intro/Stochastic Processes II (A) SP2064 17 88.2% 87.5% 8.85 B+ (3.38) B+ (3.40)
Nemish, Yuriy MATH 180C - Intro/Stochastic Processes II (B) SP2046 10 77.8% 33.3% 10.28 A- (3.75) B+ (3.60)
Quarfoot, David James MATH 181A - Intro/Math Statistics I (A) SP20124 36 97.1% 94.1% 10.61 A- (3.74) B+ (3.37)
Zhang, Danna MATH 181B - Intro/Math Statistics II (A) SP20115 31 93.3% 93.3% 6.43 B+ (3.65) B+ (3.55)
Zhang, Danna MATH 181B - Intro/Math Statistics II (B) SP20117 29 100.0% 100.0% 8.65 B+ (3.55) B+ (3.55)
Quarfoot, David James MATH 183 - Statistical Methods (A) SP20286 124 89.2% 86.6% 9.16 B+ (3.67) B+ (3.66)
Swanson, Joshua P MATH 184 - Enumerative Combinatorics (A) SP2069 31 53.6% 53.6% 12.36 B- (2.82) A- (3.79)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (B) SP2091 21 90.5% 81.0% 11.50 B+ (3.67) A- (3.74)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (A) SP20246 66 91.9% 74.2% 7.02 B+ (3.68) A- (3.83)
Bucur, Alina Ioana MATH 187B - Math of Modern Cryptography (B) SP2042 15 92.9% 85.7% 7.36 B (3.17) B+ (3.61)
Zhou, Wenxin MATH 189 - Data Analysis and Inference (A) SP20207 49 87.0% 78.3% 5.90 A- (3.96) A- (3.79)
Schwartzman, Armin MATH 189 - Data Analysis and Inference (B) SP20284 86 63.4% 61.0% 7.90 B+ (3.56) B+ (3.65)
Anzaldo, Leesa B MATH 20A - Calculus/Science & Engineering (A) SP20151 51 96.1% 94.1% 7.05 B (3.21) B+ (3.38)
De Vleming, Kristin Elizab MATH 20B - Calculus/Science & Engineering (A) SP20228 143 96.5% 99.3% 6.43 B+ (3.45) B+ (3.39)
Jiang, Zonglin MATH 20B - Calculus/Science & Engineering (B) SP20140 48 65.1% 58.1% 6.55 B- (2.85) C+ (2.60)
Ciotti, Benjamin MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP20251 102 67.7% 57.1% 8.22 B- (2.89) B+ (3.30)
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP20210 86 92.9% 91.6% 6.36 B+ (3.65) B+ (3.56)
Bach, Quang Tran MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP20201 166 81.1% 87.8% 7.27 B+ (3.32) B+ (3.44)
Hammock, Frances H MATH 20D - Intro/Differential Equations (A) SP20220 104 94.8% 97.9% 7.30 A- (3.80) B+ (3.64)
Jiang, Zonglin MATH 20D - Intro/Differential Equations (B) SP20147 63 66.1% 55.2% 8.23 B (3.27) B+ (3.32)
Kitsela, Roman MATH 20D - Intro/Differential Equations (C) SP20219 98 78.9% 72.0% 10.63 B+ (3.56) A- (3.75)
Ben-Ezra, David El-Chai MATH 20E - Vector Calculus (A) SP20344 109 86.9% 93.3% 5.90 B+ (3.61) B+ (3.58)
Um, Ko Woon MATH 20E - Vector Calculus (B) SP20194 70 82.6% 88.4% 7.20 B+ (3.61) B+ (3.56)
Chow, Bennett MATH 20E - Vector Calculus (C) SP20142 52 80.0% 74.0% 7.09 B+ (3.41) B+ (3.55)
Sterbenz, Jacob MATH 31CH - Honors Vector Calculus (A) SP2034 19 68.4% 57.9% 9.97 B+ (3.43) B+ (3.55)
Higgins, Zachary Douglas MATH 3C - Precalculus (A) SP20111 46 87.0% 95.7% 6.28 B- (2.94) B- (2.73)
Bowers, Adam R. MATH 87 - Freshman Seminar (A) SP2011 4 100.0% 100.0% 2.00 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP2019 12 100.0% 100.0% 1.33 A- (3.80) N/A
Bucur, Alina Ioana MATH 100B - Abstract Algebra II (A) WI2058 27 80.8% 57.7% 9.42 B- (2.96) B (3.00)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) WI2045 16 93.3% 93.3% 7.63 B+ (3.50) B+ (3.36)
Rabin, Jeffrey Mark MATH 102 - Applied Linear Algebra (B) WI20118 37 72.7% 63.6% 8.32 B- (2.97) C+ (2.65)
De Vleming, Kristin Elizab MATH 103A - Modern Algebra I (A) WI2035 16 86.7% 92.9% 7.57 B (3.20) B+ (3.37)
Wiersma, Matthew T. MATH 103A - Modern Algebra I (B) WI2074 60 98.3% 98.3% 7.30 B (3.28) C+ (2.56)
Pelayo, Alvaro MATH 103A - Modern Algebra I (C) WI2053 21 85.0% 85.0% 8.90 B (3.00) B- (2.80)
Green, Nathan E MATH 103B - Modern Algebra II (A) WI2091 28 85.7% 100.0% 7.21 B+ (3.39) B (3.00)
Salehi Golsefidy, Alireza MATH 103B - Modern Algebra II (B) WI2047 24 90.9% 95.5% 8.05 B+ (3.41) B- (2.91)
Popescu, Cristian D. MATH 104B - Number Theory II (B) WI208 4 100.0% 100.0% 8.50 B (3.00) N/A
Savvas, Michail MATH 109 - Mathematical Reasoning (A) WI2070 29 100.0% 100.0% 7.26 B+ (3.66) B+ (3.63)
Swanson, Joshua P MATH 109 - Mathematical Reasoning (B) WI2040 25 60.0% 75.0% 6.58 B- (2.82) B- (2.87)
Sorensen, Claus M MATH 109 - Mathematical Reasoning (C) WI2058 46 84.1% 95.5% 7.64 B (3.00) B (3.10)
Tamam, Nattalie MATH 109 - Mathematical Reasoning (D) WI2056 19 73.7% 94.7% 6.61 B (3.17) B- (2.73)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (E) WI2070 21 76.5% 100.0% 5.91 B (3.11) B- (2.74)
Perkins, Rudolph Bronson MATH 10A - Calculus I (A) WI20259 115 66.7% 66.0% 6.46 C+ (2.68) C (2.01)
Ferrara, Joseph William MATH 10A - Calculus I (B) WI20319 149 78.9% 73.8% 5.63 B- (2.75) C+ (2.61)
Eggers, John Dietrich MATH 10B - Calculus II (A) WI20308 153 74.8% 68.8% 6.04 B (3.03) B (3.05)
Savvas, Michail MATH 10B - Calculus II (B) WI20288 142 85.6% 97.1% 6.01 B (3.10) B (3.12)
Wiersma, Matthew T. MATH 10B - Calculus II (C) WI20199 107 71.6% 75.2% 5.65 B (3.01) B- (2.95)
Deng, Yanxia MATH 10C - Calculus III (A) WI20135 55 90.0% 94.0% 5.19 B+ (3.35) B (3.04)
Jiang, Zonglin MATH 10C - Calculus III (B) WI20114 42 65.9% 70.7% 6.95 B- (2.93) C+ (2.64)
Hammock, Frances H MATH 11 - Calculus-Based Prob & Stats (A) WI20278 132 73.6% 75.0% 7.41 B (3.06) B (3.28)
Ciotti, Benjamin MATH 11 - Calculus-Based Prob & Stats (B) WI20192 85 70.1% 84.2% 6.88 B+ (3.32) B- (2.79)
McKernan, James MATH 120A - Elements of Complex Analysis (A) WI2077 38 88.9% 88.9% 6.56 B+ (3.39) B (3.26)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI2029 15 92.3% 100.0% 3.88 B+ (3.31) B (3.04)
Seward, Brandon M. MATH 140A - Foundations of Real Analysis I (A) WI2043 9 77.8% 87.5% 9.61 C+ (2.56) C (2.16)
Chow, Bennett MATH 140B - Foundations/Real Analysis II (A) WI2045 14 84.6% 66.7% 10.04 B (3.08) B+ (3.44)
Zlatos, Andrej MATH 140B - Foundations/Real Analysis II (B) WI2018 10 90.0% 100.0% 8.70 A- (3.78) N/A
Bejenaru, Ioan MATH 142A - Introduction to Analysis I (A) WI2038 12 83.3% 100.0% 6.83 B (3.00) C+ (2.49)
Spolaor, Luca MATH 142A - Introduction to Analysis I (B) WI2072 31 89.7% 96.6% 7.43 B+ (3.38) B (3.00)
Xu, Hang MATH 142A - Introduction to Analysis I (C) WI2070 17 93.3% 93.3% 9.00 B+ (3.38) B (3.26)
Xiao, Ming MATH 142B - Introduction to Analysis II (A) WI20136 48 93.5% 97.8% 6.54 A- (3.72) B+ (3.49)
Ioana, Adrian MATH 142B - Introduction to Analysis II (B) WI2057 20 78.9% 100.0% 7.34 B (3.11) B- (2.95)
Driver, Bruce K MATH 150B - Calculus on Manifolds (A) WI207 5 100.0% 100.0% 7.30 B+ (3.60) N/A
Knop, Aleksandr MATH 152 - Applicable Math and Computing (A) WI20142 43 63.4% 58.5% 6.74 B+ (3.34) B (3.08)
Tesler, Glenn MATH 154 - Discrete Math & Graph Theory (A) WI20103 31 80.0% 83.3% 7.90 B+ (3.40) B (3.20)
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI2048 13 90.9% 90.9% 6.86 B+ (3.60) B (3.18)
Kedlaya, Kiran S. MATH 157 - Intro to Mathematical Software (A) WI2085 18 76.5% 88.2% 9.44 B (3.18) B (3.16)
Swanson, Joshua P MATH 15A - Intro/Discrete Mathematics (A) WI2017 9 55.6% 66.7% 8.72 B+ (3.33) N/A
Dumitriu, Ioana MATH 170A - Intro Numerical Analys/Linear (A) WI20109 27 68.0% 70.8% 8.98 B (3.08) B- (2.80)
Moosmueller, Caroline MATH 170A - Intro Numerical Analys/Linear (B) WI2059 28 82.1% 82.1% 7.14 B (3.22) B- (2.71)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) WI2026 6 50.0% 66.7% 7.50 B (3.20) B- (2.71)
Licht, Martin W MATH 170B - Intro/Numerical Analy/Approxim (B) WI20136 45 61.4% 35.7% 7.48 B (3.14) B (3.13)
Dressler, Mareike MATH 171A - Intro Num Optimiz/Linear Prog (A) WI20141 48 74.5% 71.7% 7.36 B+ (3.41) B (3.03)
Eggers, John Dietrich MATH 18 - Linear Algebra (A) WI20221 79 88.3% 89.6% 5.93 B (3.20) B (3.02)
Kitsela, Roman MATH 18 - Linear Algebra (B) WI20218 96 78.7% 80.7% 5.95 B (3.16) B- (2.82)
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Eggers, John Dietrich MATH 18 - Linear Algebra (C) WI20400 177 82.9% 88.8% 6.54 B+ (3.36) B (3.10)
Licht, Martin W MATH 18 - Linear Algebra (D) WI20204 137 74.5% 58.3% 6.24 B+ (3.45) B- (2.97)
Deng, Yanxia MATH 18 - Linear Algebra (E) WI20135 51 74.0% 71.4% 7.06 B- (2.98) B (3.12)
Meyer, David A. MATH 180A - Introduction to Probability (A) WI20231 87 75.0% 75.0% 8.08 B (3.07) B (3.20)
Nemish, Yuriy MATH 180B - Intro/Stochastic Processes I (A) WI2057 28 66.7% 55.6% 7.00 B (3.19) B (3.05)
Au, Benson C MATH 180B - Intro/Stochastic Processes I (B) WI2066 28 88.9% 76.9% 9.39 B (3.16) B (3.01)
Zhang, Danna MATH 181A - Intro/Math Statistics I (A) WI20113 35 100.0% 100.0% 7.35 A- (3.72) B (3.20)
Zhang, Danna MATH 181A - Intro/Math Statistics I (B) WI20138 33 96.8% 96.7% 6.95 B+ (3.47) B (3.17)
Kemp, Todd Aahron MATH 182 - Hidden Data in Random Matrices (A) WI2024 20 95.0% 100.0% 8.30 B+ (3.32) B+ (3.52)
Quarfoot, David James MATH 183 - Statistical Methods (A) WI20288 115 92.0% 93.8% 8.00 B+ (3.53) B (3.30)
Au, Benson C MATH 184 - Enumerative Combinatorics (A) WI2077 25 82.6% 91.3% 8.59 B (3.22) B (3.14)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI2084 31 89.7% 89.7% 6.29 B+ (3.66) B+ (3.55)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (A) WI20200 59 84.5% 64.9% 5.26 A- (3.75) A- (3.75)
Rhoades, Brendon Patrick MATH 188 - Algebraic Combinatorics (A) WI2011 9 88.9% 100.0% 7.61 B+ (3.33) N/A
Xu, Ronghui MATH 189 - Data Analysis and Inference (A) WI2099 34 47.1% 29.4% 4.79 A- (3.76) A- (3.84)
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Fitzsimmons, Patrick J MATH 194 - The Mathematics of Finance (A) WI20135 43 77.5% 72.5% 7.40 B (3.28) B+ (3.34)
Harel, Guershon MATH 2 - Intro to College Mathematics (A) WI2010 3 33.3% 33.3% 7.17 B+ (3.50) N/A
Bach, Quang Tran MATH 20A - Calculus/Science & Engineering (A) WI20152 79 90.9% 92.1% 5.75 B- (2.95) B- (2.70)
Quarfoot, David James MATH 20A - Calculus/Science & Engineering (B) WI20142 63 92.1% 88.9% 7.17 B (3.13) C (2.01)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (A) WI20189 89 95.2% 98.8% 5.99 B+ (3.48) C+ (2.45)
Moosmueller, Caroline MATH 20B - Calculus/Science & Engineering (B) WI20281 151 74.1% 74.1% 6.78 B- (2.91) C+ (2.57)
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Zhang, Yuming MATH 20B - Calculus/Science & Engineering (D) WI2070 25 82.6% 59.1% 7.89 B- (2.90) B- (2.88)
Perkins, Rudolph Bronson MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI20100 41 84.2% 76.3% 6.34 B (3.19) C+ (2.59)
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI20204 101 88.4% 91.6% 5.64 B (3.11) B (3.01)
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Manners, Frederick MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI20191 75 65.8% 55.6% 6.55 B (3.07) B (3.07)
Kitsela, Roman MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI20290 144 82.0% 84.8% 5.95 B+ (3.33) B- (2.96)
Um, Ko Woon MATH 20D - Intro/Differential Equations (A) WI20206 101 88.9% 88.8% 6.32 B+ (3.42) B- (2.97)
Yang, Zi MATH 20D - Intro/Differential Equations (B) WI20191 83 91.0% 82.1% 5.56 B+ (3.65) B (3.11)
Ben-Ezra, David El-Chai MATH 20D - Intro/Differential Equations (C) WI20232 94 90.1% 96.7% 7.11 B+ (3.41) B+ (3.44)
Zhang, Yuming MATH 20D - Intro/Differential Equations (D) WI20138 56 90.6% 66.0% 5.93 B+ (3.40) B (3.17)
Stapleton, David John MATH 20E - Vector Calculus (A) WI20201 101 92.8% 95.8% 5.87 B+ (3.48) B (3.25)
Ciotti, Benjamin MATH 20E - Vector Calculus (B) WI20182 79 68.8% 72.7% 7.01 B (3.05) B- (2.83)
Jiang, Zonglin MATH 20E - Vector Calculus (C) WI20133 58 83.7% 79.6% 7.66 B (3.27) C+ (2.69)
Lin, Jianfeng MATH 31BH - Honors Multivariable Calculus (A) WI2037 25 95.8% 95.8% 8.25 B+ (3.42) B+ (3.32)
Hammock, Frances H MATH 3C - Precalculus (A) WI20207 94 80.9% 94.3% 6.50 B- (2.88) B- (2.77)
Tang, Xindong MATH 4C - Pre-calculus for Sci & Engn (A) WI2088 36 82.4% 67.6% 4.96 B (3.12) B (3.29)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI2017 13 100.0% 100.0% 0.50 A (4.00) N/A
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Savvas, Michail MATH 102 - Applied Linear Algebra (A) FA19246 105 99.0% 99.0% 7.09 A- (3.73) B+ (3.60)
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Pelayo, Alvaro MATH 103A - Modern Algebra I (A) FA1952 35 84.8% 90.9% 6.92 B (3.00) B- (2.99)
Sorensen, Claus M MATH 103A - Modern Algebra I (B) FA1936 30 82.8% 96.6% 7.90 B (3.10) B+ (3.42)
Zelmanov, Efim I MATH 103A - Modern Algebra I (C) FA1956 19 88.9% 94.4% 4.61 B (3.22) B- (2.86)
Popescu, Cristian D. MATH 104A - Number Theory I (A) FA1917 9 87.5% 87.5% 6.75 B (3.13) N/A
Popescu, Cristian D. MATH 105 - Basic Number Theory (A) FA1924 9 77.8% 55.6% 6.06 C+ (2.56) B- (2.80)
Izadi, Elham MATH 106 - Intro/Algebraic Geometry (A) FA199 5 100.0% 100.0% 9.50 B (3.25) N/A
Spolaor, Luca MATH 109 - Mathematical Reasoning (A) FA1966 34 93.9% 93.9% 8.68 B+ (3.36) B- (2.93)
Seward, Brandon M. MATH 109 - Mathematical Reasoning (B) FA1981 38 87.5% 100.0% 7.38 B- (2.85) B- (2.80)
Dressler, Mareike MATH 109 - Mathematical Reasoning (C) FA1966 60 90.0% 78.3% 6.93 B (3.14) C+ (2.69)
Novak, Jonathan I MATH 109 - Mathematical Reasoning (D) FA1996 90 96.6% 93.3% 6.66 B+ (3.51) B+ (3.44)
Anzaldo, Leesa B MATH 109 - Mathematical Reasoning (E) FA19107 50 85.1% 95.7% 8.80 B (3.09) B- (2.80)
Eggers, John Dietrich MATH 10A - Calculus I (A) FA19390 185 81.3% 77.2% 5.62 B (3.16) C+ (2.55)
Savvas, Michail MATH 10A - Calculus I (B) FA19188 98 93.2% 96.6% 5.84 B+ (3.39) C+ (2.57)
Deng, Yanxia MATH 10A - Calculus I (C) FA19194 99 86.2% 77.7% 5.06 B (3.22) C+ (2.70)
Hammock, Frances H MATH 10B - Calculus II (A) FA19288 146 75.0% 78.8% 6.09 B (3.02) C+ (2.53)
Perkins, Rudolph Bronson MATH 10B - Calculus II (B) FA19297 146 60.9% 65.2% 6.62 C+ (2.67) C+ (2.64)
Dressler, Mareike MATH 10C - Calculus III (A) FA19175 80 74.3% 47.8% 7.27 B (3.29) B- (2.74)
Au, Benson C MATH 10C - Calculus III (B) FA19175 80 84.5% 85.9% 6.56 B+ (3.40) B- (2.99)
Hammock, Frances H MATH 11 - Calculus-Based Prob & Stats (A) FA19371 179 79.2% 81.4% 7.50 B+ (3.31) B- (2.85)
Huang, Rong MATH 11 - Calculus-Based Prob & Stats (B) FA19134 60 66.7% 50.9% 7.83 B (3.18) B- (2.94)
Sterbenz, Jacob MATH 110 - Intro/Partial Diff Equations (A) FA1942 15 92.3% 66.7% 6.04 B (3.25) C+ (2.52)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1932 10 100.0% 100.0% 4.94 B+ (3.56) A- (3.86)
Meyer, David A. MATH 111A - Mathematical Modeling I (B) FA1932 11 100.0% 100.0% 4.70 A- (3.70) A- (3.73)
Xiao, Ming MATH 120A - Elements of Complex Analysis (A) FA1968 21 100.0% 100.0% 7.94 B+ (3.61) B- (2.90)
Rabin, Jeffrey Mark MATH 130 - Diff Eqs & Dynamical Systems (A) FA1956 28 92.0% 96.0% 7.86 B (3.21) B- (2.79)
Elgindi, Tarek M MATH 140A - Foundations of Real Analysis I (A) FA1945 20 93.8% 93.8% 10.63 B+ (3.44) B (3.15)
Zlatos, Andrej MATH 140A - Foundations of Real Analysis I (B) FA1939 16 78.6% 85.7% 14.64 B (3.00) C+ (2.62)
Ioana, Adrian MATH 142A - Introduction to Analysis I (A) FA1968 26 80.0% 84.0% 7.54 B (3.20) C+ (2.45)
Xiao, Ming MATH 142A - Introduction to Analysis I (B) FA19114 52 92.0% 98.0% 7.72 B+ (3.65) B+ (3.34)
Wiersma, Matthew T. MATH 142A - Introduction to Analysis I (C) FA1961 15 66.7% 69.2% 7.83 C (2.13) C (2.19)
Bejenaru, Ioan MATH 144 - Intro to Fourier Analysis (A) FA199 8 100.0% 100.0% 12.00 B+ (3.57) N/A
Sterbenz, Jacob MATH 150A - Differential Geometry (A) FA1923 8 50.0% 62.5% 11.25 C (2.25) C- (1.87)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA1921 6 80.0% 60.0% 6.90 B (3.20) B- (2.80)
Bach, Quang Tran MATH 154 - Discrete Math & Graph Theory (A) FA1959 14 69.2% 84.6% 10.81 B- (2.85) C+ (2.39)
Verstraete, Jacques Allan MATH 158 - Extremal Combinatorics/Graph (A) FA1920 10 100.0% 100.0% 7.10 B+ (3.67) C+ (2.35)
Knop, Aleksandr MATH 160A - Elementary Math Logic I (A) FA1926 13 53.8% 53.8% 6.00 B (3.00) C+ (2.70)
Cloninger, Alexander MATH 170A - Intro Numerical Analys/Linear (A) FA19170 57 90.4% 92.2% 7.42 B+ (3.37) B- (2.82)
Cloninger, Alexander MATH 170A - Intro Numerical Analys/Linear (B) FA19139 58 82.5% 89.3% 7.97 B (3.09) C+ (2.66)
Saab, Rayan MATH 173A - Optimization/Data Science I (A) FA19117 61 75.4% 87.7% 8.08 B (3.11) B- (2.96)
Behzadan, Ali MATH 174 - Numericl Methods/Physcl Modlng (A) FA1988 38 92.1% 92.1% 8.29 B+ (3.34) B- (2.83)
De Vleming, Kristin Elizab MATH 18 - Linear Algebra (A) FA19143 78 89.0% 94.4% 6.53 B (3.23) B (3.10)
Anzaldo, Leesa B MATH 18 - Linear Algebra (B) FA19221 112 89.5% 97.1% 6.56 B (3.25) B- (2.84)
Harel, Guershon MATH 18 - Linear Algebra (C) FA19180 97 76.1% 65.9% 7.13 B (3.01) C+ (2.49)
Tamam, Nattalie MATH 18 - Linear Algebra (D) FA19272 127 82.6% 61.7% 6.40 B (3.23) B (3.12)
Ciotti, Benjamin MATH 18 - Linear Algebra (E) FA19139 65 82.3% 77.4% 6.89 B (3.21) B- (2.97)
Nemish, Yuriy MATH 180A - Introduction to Probability (A) FA19122 61 73.3% 51.7% 8.77 B (3.00) B- (2.89)
Kemp, Todd Aahron MATH 180A - Introduction to Probability (B) FA19167 99 92.9% 95.9% 8.46 B (3.27) B- (2.99)
Au, Benson C MATH 180A - Introduction to Probability (C) FA19139 59 84.9% 72.5% 7.33 B (3.22) B- (2.83)
Zheng, Tianyi MATH 180C - Intro/Stochastic Processes II (A) FA1932 14 71.4% 78.6% 8.93 B (3.00) B (3.21)
Das, Srinjoy MATH 181B - Intro/Math Statistics II (A) FA1975 19 100.0% 88.9% 7.87 B+ (3.61) B+ (3.33)
Novak, Jonathan I MATH 183 - Statistical Methods (A) FA19297 267 89.1% 89.8% 6.01 B+ (3.56) A- (3.71)
Sam, Steven V MATH 184 - Enumerative Combinatorics (A) FA1969 56 78.6% 85.7% 8.32 B (3.11) C+ (2.62)
Zhou, Wenxin MATH 185 - Intro to Computational Stats (A) FA19166 43 65.0% 57.5% 7.85 B (3.29) B+ (3.34)
Pelayo, Alvaro MATH 190A - Foundations of Topology I (A) FA198 6 100.0% 100.0% 6.90 B+ (3.60) N/A
Quarfoot, David James MATH 2 - Intro to College Mathematics (A) FA1930 17 80.0% 100.0% 3.83 B (3.13) C+ (2.49)
Quarfoot, David James MATH 2 - Intro to College Mathematics (B) FA1934 16 100.0% 86.7% 5.38 B- (2.88) C+ (2.52)
Moosmueller, Caroline MATH 20A - Calculus/Science & Engineering (A) FA19214 113 96.2% 89.2% 5.69 B (3.30) B (3.07)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (B) FA19158 76 98.6% 97.0% 6.13 B+ (3.57) B (3.17)
Zhang, Yuming MATH 20A - Calculus/Science & Engineering (C) FA19136 80 78.2% 33.8% 5.63 B+ (3.46) B (3.13)
Suk, Andrew Hoon MATH 20A - Calculus/Science & Engineering (D) FA19115 83 96.3% 92.5% 4.93 B+ (3.62) B+ (3.60)
Tang, Xindong MATH 20B - Calculus/Science & Engineering (A) FA19132 78 73.3% 30.0% 7.89 B (3.15) C+ (2.67)
Tamam, Nattalie MATH 20B - Calculus/Science & Engineering (B) FA19299 145 81.5% 61.4% 5.20 B+ (3.33) C+ (2.69)
Green, Nathan E MATH 20B - Calculus/Science & Engineering (C) FA19308 204 90.0% 92.3% 6.20 B (3.20) B- (2.96)
Ben-Ezra, David El-Chai MATH 20B - Calculus/Science & Engineering (E) FA19155 74 84.1% 88.2% 6.56 B- (2.98) B- (2.88)
Kitsela, Roman MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA19213 95 97.7% 95.3% 5.22 B+ (3.67) B (3.17)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA19409 195 94.6% 83.7% 7.07 B+ (3.52) B- (2.96)
Bach, Quang Tran MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA19214 97 95.6% 98.9% 7.14 B+ (3.37) B (3.06)
Stapleton, David John MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA19209 121 96.4% 92.8% 5.36 B+ (3.66) B (3.24)
Swanson, Joshua P MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA19370 239 73.6% 56.8% 6.47 B (3.03) B- (2.80)
Xu, Hang MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) FA19148 86 90.1% 77.8% 6.84 B+ (3.52) B (3.12)
Bowers, Adam R. MATH 20D - Intro/Differential Equations (A) FA19233 191 93.2% 95.2% 7.58 B+ (3.37) B- (2.95)
Ciotti, Benjamin MATH 20D - Intro/Differential Equations (B) FA19130 58 90.4% 84.3% 7.90 B (3.16) C+ (2.39)
Deng, Yanxia MATH 20D - Intro/Differential Equations (C) FA19154 57 85.2% 87.0% 6.99 B+ (3.47) B- (2.74)
Perkins, Rudolph Bronson MATH 20D - Intro/Differential Equations (D) FA19177 79 81.1% 81.1% 7.67 B (3.13) B- (2.70)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) FA19216 86 79.2% 81.8% 7.29 B (3.28) B- (2.74)
Kitsela, Roman MATH 20E - Vector Calculus (B) FA19284 137 78.0% 82.6% 6.33 B (3.02) C+ (2.66)
Ferrara, Joseph William MATH 20E - Vector Calculus (C) FA19134 62 85.5% 83.9% 6.24 B+ (3.30) B- (2.72)
Lin, Jianfeng MATH 31AH - Honors Linear Algebra (A) FA1965 53 76.5% 90.0% 7.40 B+ (3.50) B (3.21)
Lenz, David Charles MATH 3C - Precalculus (A) FA19198 177 91.3% 87.8% 4.85 B (3.07) B- (2.99)
Harel, Guershon MATH 3C - Precalculus (B) FA19179 95 61.8% 45.3% 5.53 C+ (2.70) C- (1.95)
Jiang, Zonglin MATH 3C - Precalculus (C) FA19145 93 41.9% 31.3% 5.10 C+ (2.30) C (2.24)
Jiang, Zonglin MATH 4C - Pre-calculus for Sci & Engn (A) FA19215 114 58.7% 42.9% 5.29 B- (2.75) C (2.12)
Harel, Guershon MATH 87 - Freshman Seminar (A) FA1914 8 85.7% 100.0% 3.36 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (B) FA198 7 100.0% 100.0% 0.50 N/A N/A
Kane, Daniel Mertz MATH 96 - Putnam Seminar (A) FA1926 14 100.0% 100.0% 3.93 A (4.00) N/A
Um, Ko Woon MATH 2 - Intro to College Mathematics (A) S31910 5 66.7% 100.0% 7.83 C+ (2.67) N/A
Jones, Miles E MATH 3C - Precalculus (A) S31923 17 100.0% 100.0% 8.85 B (3.18) B (3.18)
Jones, Miles E MATH 3C - Precalculus (B) S31922 14 91.7% 90.9% 11.58 B (3.07) B (3.20)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) S21925 10 88.9% 77.8% 11.83 B+ (3.56) C+ (2.41)
Stapleton, David John MATH 103B - Modern Algebra II (A) S21935 10 75.0% 87.5% 9.75 B (3.29) B- (2.89)
Pelayo, Alvaro MATH 103B - Modern Algebra II (B) S21927 10 90.0% 100.0% 9.10 B (3.10) C+ (2.67)
Popescu, Cristian D. MATH 105 - Basic Number Theory (A) S21919 5 60.0% 60.0% 7.70 B- (2.80) N/A
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) S21925 12 83.3% 100.0% 8.67 A- (3.75) B- (2.93)
Anzaldo, Leesa B MATH 109 - Mathematical Reasoning (B) S21942 14 91.7% 100.0% 7.67 B+ (3.58) B (3.09)
Bowers, Adam R. MATH 10B - Calculus II (A) S21963 18 77.8% 83.3% 8.28 B- (2.83) D (1.21)
Rotar, Vladimir MATH 10C - Calculus III (A) S21986 63 82.0% 86.9% 8.30 B- (2.98) B- (2.83)
Eggers, John Dietrich MATH 120A - Elements of Complex Analysis (A) S21942 5 80.0% 80.0% 8.50 B+ (3.60) B- (2.80)
Chow, Bennett MATH 130A - Ordinary Differntl Equation I (B) S21938 13 76.9% 91.7% 8.81 B+ (3.38) B+ (3.39)
Behzadan, Ali MATH 142B - Introduction to Analysis II (A) S21960 18 87.5% 93.8% 10.00 B+ (3.56) B+ (3.32)
Wang, Lujia MATH 142B - Introduction to Analysis II (B) S21923 7 71.4% 85.7% 8.79 B (3.14) B- (2.72)
Harel, Guershon MATH 18 - Linear Algebra (A) S21975 25 72.0% 52.0% 11.78 B+ (3.44) C+ (2.40)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21918 11 100.0% 100.0% 8.68 B+ (3.64) N/A
Ciotti, Benjamin MATH 20A - Calculus/Science & Engineering (A) S21919 10 87.5% 87.5% 8.75 B+ (3.63) N/A
Anzaldo, Leesa B MATH 20B - Calculus/Science & Engineering (A) S21952 9 100.0% 100.0% 8.75 B+ (3.63) C+ (2.33)
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S219127 41 92.1% 97.3% 8.13 B (3.19) C+ (2.64)
Tu, Yucheng MATH 20D - Intro/Differential Equations (A) S219100 37 91.4% 97.1% 6.67 B+ (3.62) B (3.04)
Meyer, Kyle Phillip MATH 20E - Vector Calculus (A) S21975 28 85.2% 63.0% 9.39 B+ (3.68) C+ (2.68)
Ciotti, Benjamin MATH 20E - Vector Calculus (B) S21992 29 63.0% 59.3% 7.98 B- (2.93) C+ (2.67)
Strahl, Perry Robert MATH 103A - Modern Algebra I (A) S11938 30 83.3% 93.3% 7.63 B (3.03) B (3.22)
Pelayo, Alvaro MATH 103A - Modern Algebra I (B) S11939 20 95.0% 95.0% 8.10 B+ (3.30) B- (2.88)
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) S11933 12 91.7% 91.7% 9.33 B (3.27) C+ (2.58)
Anzaldo, Leesa B MATH 109 - Mathematical Reasoning (B) S11945 13 92.3% 100.0% 6.96 B+ (3.54) B (3.02)
Bowers, Adam R. MATH 10A - Calculus I (A) S11958 28 76.9% 88.0% 13.81 B- (2.79) C+ (2.45)
Rotar, Vladimir MATH 10B - Calculus II (A) S11963 39 82.1% 89.5% 8.60 B- (2.85) C+ (2.65)
Hammock, Frances H MATH 11 - Calculus-Based Prob & Stats (A) S11999 33 87.5% 96.8% 10.18 B+ (3.37) B- (2.70)
Chow, Bennett MATH 110A - Intro to PDE I (B) S11933 10 100.0% 90.0% 9.30 B+ (3.60) B (3.11)
Behzadan, Ali MATH 142A - Introduction to Analysis I (A) S119106 33 90.0% 93.3% 8.30 B (3.27) B (3.08)
Wang, Lujia MATH 142A - Introduction to Analysis I (B) S11925 10 62.5% 62.5% 10.00 B (3.13) C+ (2.51)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (A) S119153 105 88.3% 99.0% 8.83 B (3.10) C+ (2.51)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11959 34 81.8% 84.4% 8.19 B (3.16) B- (2.83)
Ceccherini-Silberstein, Tullio MATH 20A - Calculus/Science & Engineering (A) S11920 11 70.0% 80.0% 11.70 B- (2.82) B- (2.92)
Ceccherini-Silberstein, Tullio MATH 20B - Calculus/Science & Engineering (A) S11941 8 100.0% 100.0% 7.50 B (3.13) C+ (2.37)
Tu, Yucheng MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S11997 29 92.0% 96.0% 6.94 B (3.11) B- (2.97)
Kitsela, Roman MATH 20D - Intro/Differential Equations (A) S119132 51 91.5% 95.7% 6.83 B+ (3.48) B- (2.86)
Strahl, Perry Robert MATH 20E - Vector Calculus (A) S119109 63 88.9% 90.5% 8.47 B+ (3.49) B (3.07)
Chow, Bennett MATH 4C - Pre-calculus for Sci & Engn (A) S11928 13 100.0% 92.3% 10.65 B (3.23) B (3.09)
Popescu, Cristian D. MATH 100C - Abstract Algebra III (A) SP1935 7 100.0% 100.0% 10.50 B (3.00) B+ (3.69)
Savvas, Michail MATH 102 - Applied Linear Algebra (A) SP19145 52 100.0% 100.0% 6.11 B+ (3.66) B+ (3.47)
Dressler, Mareike MATH 102 - Applied Linear Algebra (B) SP19145 42 66.7% 57.1% 6.61 B- (2.94) C+ (2.39)
Mohammadi, Amir MATH 103B - Modern Algebra II (A) SP1969 14 100.0% 100.0% 9.50 B+ (3.44) C+ (2.48)
Anzaldo, Leesa B MATH 103B - Modern Algebra II (B) SP19132 42 76.3% 97.4% 7.58 B- (2.97) B- (2.96)
Sorensen, Claus M MATH 104C - Number Theory III (A) SP1910 8 100.0% 100.0% 8.00 B+ (3.38) N/A
Au, Benson C MATH 109 - Mathematical Reasoning (A) SP1960 19 76.5% 73.3% 6.26 B (3.12) B- (2.87)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (B) SP1997 35 96.8% 96.8% 7.94 B+ (3.45) B- (2.73)
Tamam, Nattalie MATH 109 - Mathematical Reasoning (D) SP1952 31 86.7% 62.1% 7.23 B (3.14) B- (2.78)
Licht, Martin W MATH 109 - Mathematical Reasoning (E) SP1956 44 90.9% 86.4% 7.64 B+ (3.36) B (3.19)
Dewey, Edward Harold MATH 10A - Calculus I (A) SP19204 80 62.8% 60.3% 5.45 B- (2.70) B- (2.84)
Hammock, Frances H MATH 10B - Calculus II (A) SP19331 168 82.4% 92.4% 6.69 B- (2.79) C+ (2.40)
Anzaldo, Leesa B MATH 10B - Calculus II (B) SP19276 122 72.7% 88.0% 6.84 B- (2.77) C+ (2.44)
Kitsela, Roman MATH 10C - Calculus III (A) SP19209 158 87.8% 96.8% 6.22 B (3.21) C+ (2.69)
Um, Ko Woon MATH 10C - Calculus III (B) SP19196 89 80.0% 81.3% 5.33 B (3.27) B- (2.73)
Swanson, Joshua P MATH 11 - Calculus-Based Prob & Stats (A) SP19215 101 60.2% 63.0% 7.32 B- (2.95) B (3.02)
Aghajani, Mohammadreza MATH 11 - Calculus-Based Prob & Stats (B) SP19280 132 78.6% 81.6% 5.91 B+ (3.30) B- (2.87)
Curry, Sean N MATH 120B - Applied Complex Analysis (A) SP1954 21 95.2% 95.2% 7.80 B+ (3.50) B+ (3.52)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1920 14 100.0% 100.0% 5.12 B (3.23) B (3.16)
Zlatos, Andrej MATH 140C - Foundations/Real Analysis III (A) SP1927 13 92.3% 84.6% 11.27 B+ (3.31) B- (2.97)
Curry, Sean N MATH 142B - Introduction to Analysis II (A) SP19216 64 88.1% 100.0% 7.86 B+ (3.56) B (3.27)
Ioana, Adrian MATH 142B - Introduction to Analysis II (B) SP1989 36 87.5% 100.0% 8.44 B+ (3.42) C+ (2.46)
Huynh, Thang L MATH 152 - Applicable Math and Computing (A) SP19154 111 83.2% 87.9% 5.49 B+ (3.34) B (3.03)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) SP19231 63 85.2% 87.0% 7.72 B+ (3.37) B- (2.96)
Buss, Samuel R MATH 155B - Topics in Computer Graphics (A) SP1917 6 100.0% 100.0% 13.83 A (4.00) N/A
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP19111 33 93.1% 96.3% 4.71 B+ (3.33) B- (2.96)
Meyer, David A. MATH 168A - Topics/Applied Math-Comp Sci (A) SP19105 32 86.2% 82.8% 8.03 B- (2.86) B (3.18)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) SP19157 34 64.5% 67.7% 8.97 C+ (2.67) C+ (2.31)
Saab, Rayan MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1945 38 83.8% 94.6% 7.26 B (3.09) B- (2.79)
Gill, Philip E. MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1993 22 80.0% 85.0% 8.30 B (3.21) B (3.08)
Leok, Melvin MATH 179 - Proj in Computational/App Math (A) SP1926 5 40.0% 40.0% 4.90 B+ (3.60) A- (3.86)
Kitsela, Roman MATH 18 - Linear Algebra (B) SP19214 114 88.6% 87.5% 5.87 B+ (3.51) B- (2.77)
Tamam, Nattalie MATH 18 - Linear Algebra (C) SP19198 70 68.3% 45.2% 7.26 B (3.15) B- (2.71)
Strahl, Perry Robert MATH 18 - Linear Algebra (D) SP19254 174 82.7% 63.7% 5.11 B (3.14) B (3.11)
Green, Nathan E MATH 18 - Linear Algebra (E) SP19217 189 88.2% 95.7% 6.22 B+ (3.35) B- (2.91)
Aghajani, Mohammadreza MATH 180B - Intro/Stochastic Processes I (A) SP19103 33 90.0% 89.7% 8.57 B+ (3.38) C+ (2.69)
Fitzsimmons, Patrick J MATH 180C - Intro/Stochastic Processes II (A) SP1944 11 60.0% 77.8% 9.10 B- (2.91) C+ (2.48)
Schweinsberg, Jason MATH 180C - Intro/Stochastic Processes II (B) SP19148 55 92.0% 94.0% 10.50 B+ (3.50) B (3.08)
Zhang, Danna MATH 181A - Intro/Math Statistics I (A) SP19159 50 93.3% 86.7% 6.41 B+ (3.40) B (3.21)
Krief, Jerome MATH 181A - Intro/Math Statistics I (B) SP1972 14 90.9% 40.0% 5.90 B+ (3.36) B- (2.93)
Quarfoot, David James MATH 181B - Intro/Math Statistics II (A) SP1995 35 90.9% 87.9% 9.53 B+ (3.47) B (3.02)
Krief, Jerome MATH 181B - Intro/Math Statistics II (B) SP1959 15 85.7% 64.3% 5.97 B+ (3.67) B (3.13)
Quarfoot, David James MATH 183 - Statistical Methods (A) SP19258 72 91.3% 92.6% 9.05 B (3.26) B- (2.85)
Au, Benson C MATH 184A - Combinatorics (A) SP1930 10 77.8% 88.9% 6.94 B (3.00) B- (2.79)
Swanson, Joshua P MATH 184A - Combinatorics (B) SP1976 23 61.9% 61.9% 10.70 B- (2.76) B- (2.84)
Knop, Aleksandr MATH 184A - Combinatorics (C) SP1962 39 69.2% 78.9% 6.76 B (3.27) B- (2.76)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP19147 38 65.6% 53.1% 8.82 B (3.03) B (3.02)
Zhou, Wenxin MATH 189 - Data Analysis and Inference (A) SP19172 37 90.9% 78.1% 6.26 A- (3.97) A- (3.77)
Roberts, Justin Deritter MATH 191 - Topics In Topology (A) SP1920 9 100.0% 88.9% 7.17 A (4.00) A (4.00)
Bach, Quang Tran MATH 20A - Calculus/Science & Engineering (A) SP19130 49 97.7% 95.3% 5.57 B- (2.80) C+ (2.52)
Postema, Jacob MATH 20B - Calculus/Science & Engineering (A) SP19201 90 43.0% 33.3% 7.58 C (2.29) C+ (2.67)
Tucker, Henry Jackson MATH 20B - Calculus/Science & Engineering (B) SP19194 66 87.9% 76.8% 5.92 B (3.02) C+ (2.57)
Hammock, Frances H MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP19305 130 89.3% 95.0% 6.55 B (3.13) B- (2.80)
Ferrara, Joseph William MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP19304 142 76.6% 71.7% 5.96 B (3.10) C+ (2.59)
Wang, Lujia MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP19174 70 59.1% 36.9% 7.02 B- (2.91) B- (2.70)
Behzadan, Ali MATH 20D - Intro/Differential Equations (A) SP19146 70 93.7% 87.3% 6.06 B+ (3.44) B (3.13)
Um, Ko Woon MATH 20D - Intro/Differential Equations (B) SP19230 105 88.9% 92.8% 5.50 B+ (3.40) C+ (2.64)
Strahl, Perry Robert MATH 20D - Intro/Differential Equations (C) SP19244 162 87.3% 75.2% 5.68 B+ (3.51) B- (2.80)
Huynh, Thang L MATH 20E - Vector Calculus (A) SP19200 151 83.0% 82.3% 6.31 B (3.07) B- (2.93)
Behzadan, Ali MATH 20E - Vector Calculus (B) SP19195 85 89.0% 93.8% 7.08 B+ (3.49) B (3.12)
Ben-Ezra, David El-Chai MATH 20E - Vector Calculus (C) SP19312 125 88.6% 94.7% 6.03 B+ (3.55) B (3.16)
Bowers, Adam R. MATH 31CH - Honors Vector Calculus (A) SP1938 16 93.3% 100.0% 5.38 A- (3.93) B (3.29)
Pikula, Nina MATH 3C - Precalculus (A) SP1978 28 88.5% 76.0% 5.73 B (3.14) C+ (2.61)
Rabin, Jeffrey Mark MATH 87 - Freshman Seminar (B) SP1916 8 100.0% 100.0% 1.07 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (C) SP1920 11 100.0% 100.0% 1.41 B+ (3.67) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1925 14 100.0% 100.0% 1.12 A (4.00) A- (3.96)
Popescu, Cristian D. MATH 100B - Abstract Algebra II (A) WI1958 21 81.3% 80.0% 9.63 B (3.25) B- (2.72)
Eggers, John Dietrich MATH 102 - Applied Linear Algebra (A) WI1982 34 90.9% 84.4% 9.35 B (3.19) C+ (2.49)
Tamam, Nattalie MATH 102 - Applied Linear Algebra (B) WI1952 19 78.9% 68.4% 7.94 B (3.17) C (2.27)
Wenzl, Hans G MATH 103A - Modern Algebra I (A) WI1954 19 88.9% 100.0% 6.18 B (3.16) C+ (2.41)
Mohammadi, Amir MATH 103A - Modern Algebra I (B) WI1940 12 100.0% 100.0% 6.50 B+ (3.67) C+ (2.56)
Anzaldo, Leesa B MATH 103A - Modern Algebra I (C) WI19120 50 83.0% 97.8% 8.17 B (3.02) B- (2.89)
Green, Nathan E MATH 103B - Modern Algebra II (A) WI19106 35 73.5% 87.5% 7.35 B (3.00) B (3.04)
Salehi Golsefidy, Alireza MATH 103B - Modern Algebra II (B) WI19123 36 64.7% 76.5% 7.19 B- (2.71) B- (2.85)
Sorensen, Claus M MATH 104B - Number Theory II (A) WI1914 11 100.0% 100.0% 6.32 A- (3.82) N/A
Dressler, Mareike MATH 109 - Mathematical Reasoning (A) WI1925 9 88.9% 66.7% 5.39 B (3.00) C- (1.88)
Xiao, Ming MATH 109 - Mathematical Reasoning (B) WI1975 39 100.0% 100.0% 6.94 A- (3.72) B (3.17)
Savvas, Michail MATH 109 - Mathematical Reasoning (C) WI1963 32 89.7% 96.4% 8.23 B+ (3.43) B- (2.87)
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (D) WI1977 41 89.5% 94.7% 7.24 B (3.13) B- (2.75)
Varma, Ila K MATH 109 - Mathematical Reasoning (E) WI1935 13 81.8% 72.7% 5.23 B (3.18) C+ (2.49)
Ben-Ezra, David El-Chai MATH 10A - Calculus I (A) WI19361 183 83.0% 86.9% 6.68 B- (2.91) B- (2.90)
Dewey, Edward Harold MATH 10A - Calculus I (B) WI19235 124 55.6% 41.0% 7.16 C+ (2.69) B- (2.72)
Bowers, Adam R. MATH 10B - Calculus II (A) WI19372 182 73.4% 82.4% 6.62 C+ (2.62) C+ (2.38)
Um, Ko Woon MATH 10B - Calculus II (B) WI19192 104 78.1% 83.0% 5.61 B (3.04) B- (2.86)
Savvas, Michail MATH 10B - Calculus II (C) WI19315 174 81.0% 94.4% 5.13 B (3.02) C+ (2.68)
Kitsela, Roman MATH 10C - Calculus III (A) WI19138 110 81.1% 80.2% 5.21 B (3.16) B- (2.73)
Tucker, Henry Jackson MATH 10C - Calculus III (B) WI19241 105 86.7% 81.3% 5.51 B+ (3.61) B (3.02)
Bowers, Adam R. MATH 11 - Calculus-Based Prob & Stats (A) WI19294 136 72.9% 86.0% 6.81 B (3.07) B- (2.96)
Kane, Daniel Mertz MATH 11 - Calculus-Based Prob & Stats (B) WI19200 107 64.4% 59.0% 7.13 B (3.11) B- (2.75)
Meyer, David A. MATH 111B - Mathematical Modeling II (A) WI199 5 100.0% 100.0% 3.50 A (4.00) N/A
Curry, Sean N MATH 120A - Elements of Complex Analysis (A) WI1979 33 93.5% 96.8% 6.95 B+ (3.43) B (3.28)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1925 15 100.0% 100.0% 5.17 B+ (3.43) B+ (3.48)
Chow, Bennett MATH 130A - Ordinary Differntl Equation I (A) WI1959 22 100.0% 95.5% 7.77 B+ (3.52) B (3.25)
Bejenaru, Ioan MATH 140B - Foundations/Real Analysis II (A) WI1945 20 93.8% 93.3% 9.63 B (3.00) C (2.23)
Zlatos, Andrej MATH 140B - Foundations/Real Analysis II (B) WI1913 5 100.0% 100.0% 12.10 B+ (3.50) N/A
Curry, Sean N MATH 142A - Introduction to Analysis I (A) WI19138 43 97.7% 100.0% 8.13 A- (3.74) B+ (3.41)
Ioana, Adrian MATH 142A - Introduction to Analysis I (B) WI19110 33 87.1% 93.5% 8.89 B (3.06) C+ (2.58)
Sterbenz, Jacob MATH 142B - Introduction to Analysis II (A) WI1944 30 69.0% 78.6% 10.07 B- (2.97) C+ (2.60)
Buskin, Nikolay MATH 142B - Introduction to Analysis II (B) WI19116 30 78.6% 71.4% 8.72 B (3.11) C+ (2.54)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) WI196 4 100.0% 100.0% 8.00 A (4.00) N/A
Huynh, Thang L MATH 152 - Applicable Math and Computing (A) WI19111 65 76.2% 79.0% 5.37 B+ (3.40) B+ (3.41)
Sam, Steven V MATH 154 - Discrete Math & Graph Theory (A) WI1983 71 93.0% 91.5% 6.64 B (3.10) C+ (2.44)
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI1955 16 81.3% 75.0% 8.88 B (3.13) B+ (3.36)
Knop, Aleksandr MATH 15A - Intro/Discrete Mathematics (A) WI1972 38 80.0% 74.3% 4.73 B+ (3.69) B (3.12)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) WI19115 40 56.4% 64.1% 8.85 C+ (2.48) C (2.15)
Licht, Martin W MATH 170A - Intro Numerical Analys/Linear (B) WI19107 83 85.5% 70.4% 5.75 B+ (3.50) B (3.17)
Behzadan, Ali MATH 170B - Intro/Numerical Analy/Approxim (A) WI19144 68 98.4% 98.4% 7.53 B+ (3.51) B (3.24)
Licht, Martin W MATH 170B - Intro/Numerical Analy/Approxim (C) WI19106 96 81.1% 60.6% 6.33 B (3.21) B+ (3.54)
Wong, Elizabeth Lai Sum MATH 171A - Intro Num Optimiz/Linear Prog (A) WI19180 52 86.0% 88.0% 6.30 B+ (3.49) B (3.09)
Bank, Randolph E MATH 175 - Numerical Methods for PDE (A) WI197 4 66.7% 66.7% 8.50 B (3.00) N/A
Stevens, Laura Jeanne MATH 18 - Linear Algebra (A) WI19204 152 95.3% 99.3% 6.13 B+ (3.51) C+ (2.66)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (B) WI19279 187 94.7% 98.4% 6.52 B+ (3.39) C+ (2.66)
Huynh, Thang L MATH 18 - Linear Algebra (C) WI19193 124 87.7% 81.8% 6.02 B+ (3.31) C+ (2.66)
Harel, Guershon MATH 18 - Linear Algebra (D) WI19171 78 86.1% 69.4% 6.89 B (3.18) D+ (1.65)
Strahl, Perry Robert MATH 18 - Linear Algebra (E) WI19196 144 80.0% 63.3% 5.56 B (3.26) B- (2.94)
Aghajani, Mohammadreza MATH 180A - Introduction to Probability (A) WI19251 114 94.3% 93.3% 6.29 B+ (3.42) B- (2.87)
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (A) WI1971 15 80.0% 60.0% 9.70 B+ (3.33) C+ (2.65)
Zheng, Tianyi MATH 180B - Intro/Stochastic Processes I (B) WI19129 35 84.8% 71.9% 9.11 B+ (3.38) B- (2.95)
Quarfoot, David James MATH 181A - Intro/Math Statistics I (A) WI19132 52 87.5% 89.4% 11.54 B (3.26) B- (2.74)
Krief, Jerome MATH 181A - Intro/Math Statistics I (B) WI1992 31 60.7% 35.7% 5.88 B+ (3.39) B (3.23)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (B) WI1956 20 83.3% 77.8% 9.39 A- (3.79) A- (3.93)
Krief, Jerome MATH 183 - Statistical Methods (A) WI19182 64 54.1% 36.1% 4.96 B+ (3.43) B+ (3.53)
Verstraete, Jacques Allan MATH 184A - Combinatorics (A) WI19120 43 91.9% 94.6% 7.42 B+ (3.43) B (3.07)
Tesler, Glenn MATH 184A - Combinatorics (B) WI1946 13 100.0% 84.6% 7.27 B+ (3.67) C+ (2.46)
Zhou, Wenxin MATH 185 - Intro to Computational Stats (A) WI1995 35 75.0% 71.9% 8.44 B+ (3.32) B+ (3.45)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1968 23 81.8% 81.8% 5.23 A- (3.76) B (3.01)
Bach, Quang Tran MATH 187A - Introduction to Cryptography (A) WI19355 99 100.0% 97.8% 6.16 A- (3.90) A- (3.73)
Bradic, Jelena MATH 189 - Data Analysis and Inference (A) WI19146 41 76.9% 73.7% 8.66 A- (3.76) B (3.29)
Roberts, Justin Deritter MATH 190 - Introduction to Topology (A) WI1928 14 100.0% 100.0% 6.50 A- (3.90) B+ (3.63)
Aghajani, Mohammadreza MATH 194 - The Mathematics of Finance (A) WI19149 55 86.3% 88.2% 7.40 B+ (3.65) B (3.09)
Harel, Guershon MATH 2 - Intro to College Mathematics (A) WI1912 7 80.0% 100.0% 3.70 B (3.20) N/A
Green, Nathan E MATH 20A - Calculus/Science & Engineering (A) WI19148 90 96.4% 98.8% 5.69 B (3.24) C+ (2.67)
Wang, Lujia MATH 20A - Calculus/Science & Engineering (B) WI19120 59 74.5% 53.1% 6.24 B- (2.75) C+ (2.68)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) WI19198 100 75.5% 80.2% 6.79 C+ (2.61) C (2.19)
Kitsela, Roman MATH 20B - Calculus/Science & Engineering (B) WI19197 98 77.6% 72.9% 6.50 B (3.09) C+ (2.47)
Buskin, Nikolay MATH 20B - Calculus/Science & Engineering (C) WI19221 111 57.0% 50.0% 7.41 C+ (2.67) C+ (2.37)
Anzaldo, Leesa B MATH 20B - Calculus/Science & Engineering (D) WI19240 125 83.5% 97.4% 6.39 B- (2.94) C+ (2.44)
Swanson, Joshua P MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI19194 106 79.4% 80.4% 6.36 B (3.09) B- (2.88)
Mohammadi, Amir MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI19199 103 94.0% 92.9% 5.73 B+ (3.34) B (3.27)
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI19216 110 88.5% 91.3% 6.19 B (3.12) B (3.16)
Wang, Lujia MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI19185 100 74.7% 33.0% 6.73 B (3.09) B- (2.78)
Strahl, Perry Robert MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI19236 183 78.3% 71.6% 5.83 B (3.16) B- (2.76)
Hammock, Frances H MATH 20D - Intro/Differential Equations (A) WI19199 109 93.9% 94.8% 6.08 B+ (3.60) B- (2.82)
Hammock, Frances H MATH 20D - Intro/Differential Equations (B) WI19209 102 92.9% 92.7% 6.42 B+ (3.36) B- (2.82)
Kossovskiy, Ilya MATH 20D - Intro/Differential Equations (D) WI19186 92 87.6% 56.8% 5.02 B+ (3.50) B (3.10)
Behzadan, Ali MATH 20D - Intro/Differential Equations (E) WI19148 93 95.4% 96.6% 6.16 A- (3.79) B (3.22)
Kossovskiy, Ilya MATH 20E - Vector Calculus (A) WI19178 69 65.7% 55.2% 5.32 B+ (3.46) B- (2.86)
Wenzl, Hans G MATH 20E - Vector Calculus (B) WI19193 73 73.9% 72.5% 7.10 B+ (3.42) B- (2.80)
Ferrara, Joseph William MATH 20E - Vector Calculus (C) WI19180 75 77.9% 71.2% 6.62 B (3.22) B- (2.77)
Chow, Bennett MATH 31BH - Honors Multivariable Calculus (A) WI1939 22 100.0% 78.9% 4.50 A- (3.94) B+ (3.51)
McAdam, Taylor Jane MATH 3C - Precalculus (A) WI19172 89 28.9% 20.7% 5.42 C+ (2.49) C+ (2.67)
Ganzberger, Geoffrey Michael MATH 4C - Pre-calculus for Sci & Engn (A) WI1950 36 78.4% 86.1% 5.17 B- (2.94) B- (2.76)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1910 9 100.0% 100.0% 0.50 N/A N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1918 6 75.0% 25.0% 7.70 B- (2.80) N/A
Popescu, Cristian D. MATH 100A - Abstract Algebra I (A) FA1872 36 93.5% 96.8% 9.05 B+ (3.42) B- (2.97)
Varma, Ila K MATH 100A - Abstract Algebra I (B) FA1824 6 100.0% 80.0% 6.90 B- (2.75) C+ (2.32)
Green, Nathan E MATH 102 - Applied Linear Algebra (A) FA18184 74 92.6% 95.5% 6.13 B+ (3.38) B (3.05)
Au, Benson C MATH 102 - Applied Linear Algebra (B) FA1856 26 60.9% 68.2% 9.20 B- (2.96) B- (2.76)
Pelayo, Alvaro MATH 103A - Modern Algebra I (A) FA1851 29 93.1% 100.0% 7.50 B (3.00) B- (2.71)
Zelmanov, Efim I MATH 103A - Modern Algebra I (B) FA1897 28 80.8% 80.8% 5.96 B (3.08) C+ (2.61)
Mohammadi, Amir MATH 103A - Modern Algebra I (C) FA18100 34 63.0% 59.3% 7.96 B (3.12) C (2.15)
Sorensen, Claus M MATH 104A - Number Theory I (A) FA1868 51 94.0% 88.0% 7.15 B (3.20) B+ (3.36)
Swanson, Joshua P MATH 109 - Mathematical Reasoning (A) FA1884 45 81.0% 80.5% 8.23 B (3.10) B- (2.90)
Knop, Aleksandr MATH 109 - Mathematical Reasoning (B) FA18100 81 68.8% 68.4% 6.65 B- (2.89) B (3.00)
Anzaldo, Leesa B MATH 109 - Mathematical Reasoning (C) FA1872 21 89.5% 94.7% 7.24 B (3.28) B- (2.97)
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (D) FA1857 43 81.1% 94.6% 6.39 B (3.00) C+ (2.69)
Novak, Jonathan I MATH 109 - Mathematical Reasoning (E) FA1890 81 87.7% 88.8% 8.65 B (3.28) B+ (3.47)
Bowers, Adam R. MATH 10A - Calculus I (A) FA18292 169 94.2% 97.4% 5.74 B (3.10) C+ (2.40)
Savvas, Michail MATH 10A - Calculus I (B) FA18188 100 92.2% 89.7% 5.42 B (3.28) C+ (2.54)
Deotte, Christopher George MATH 10A - Calculus I (C) FA18309 153 93.1% 90.9% 4.64 B+ (3.34) B- (2.72)
De Vleming, Kristin Elizab MATH 10B - Calculus II (A) FA18303 179 79.2% 87.8% 5.92 B- (2.99) B- (2.75)
Tucker, Henry Jackson MATH 10B - Calculus II (B) FA18324 166 83.8% 72.2% 5.10 B+ (3.40) B- (2.99)
Um, Ko Woon MATH 10C - Calculus III (A) FA18292 138 86.6% 84.1% 6.64 B (3.23) C+ (2.64)
Knop, Aleksandr MATH 10C - Calculus III (B) FA18191 158 78.2% 74.8% 5.87 B+ (3.35) B- (2.79)
Quarfoot, David James MATH 11 - Calculus-Based Prob & Stats (A) FA18184 104 79.2% 93.1% 7.47 B (3.10) B- (2.89)
Deotte, Christopher George MATH 11 - Calculus-Based Prob & Stats (B) FA18266 138 66.9% 59.4% 7.12 B (3.17) B- (2.84)
Elgindi, Tarek M MATH 110A - Intro/Partial Differ Equations (A) FA1823 11 70.0% 70.0% 8.30 C+ (2.67) B- (2.76)
McKernan, James MATH 110A - Intro/Partial Differ Equations (B) FA1823 8 85.7% 42.9% 7.36 B+ (3.43) B- (2.86)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1837 11 100.0% 100.0% 5.41 A- (3.73) A- (3.72)
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) FA1866 36 97.1% 90.9% 7.59 B+ (3.35) C+ (2.56)
Bejenaru, Ioan MATH 140A - Foundations of Real Analysis I (A) FA1852 21 90.5% 90.5% 10.50 B- (2.95) C+ (2.34)
Zlatos, Andrej MATH 140A - Foundations of Real Analysis I (B) FA1837 14 92.3% 92.3% 10.96 B (3.17) C+ (2.44)
Wenzl, Hans G MATH 142A - Introduction to Analysis I (B) FA1891 26 83.3% 75.0% 7.50 B (3.26) C+ (2.55)
Buskin, Nikolay MATH 142A - Introduction to Analysis I (C) FA1869 27 40.0% 44.0% 9.30 C+ (2.64) B- (2.86)
Sterbenz, Jacob MATH 142A - Introduction to Analysis I (D) FA1855 48 68.8% 77.1% 9.54 B (3.04) C+ (2.69)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA1824 13 92.3% 100.0% 6.83 B (3.09) C+ (2.58)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA1835 16 92.3% 100.0% 10.65 B+ (3.50) B (3.26)
Wear, Peter Joseph MATH 157 - Intro to Mathematical Software (A) FA18129 47 41.9% 51.2% 13.48 B (3.20) B (3.01)
Cloninger, Alexander MATH 170A - Intro Numerical Analys/Linear (A) FA18140 53 78.4% 90.0% 8.46 B (3.00) B- (2.88)
Cloninger, Alexander MATH 170A - Intro Numerical Analys/Linear (B) FA18262 79 80.3% 91.5% 8.56 B (3.10) B- (2.88)
Behzadan, Ali MATH 170A - Intro Numerical Analys/Linear (C) FA18145 62 96.6% 96.4% 7.20 A- (3.74) B (3.26)
Saab, Rayan MATH 174 - Numericl Methods/Physcl Modlng (A) FA1899 69 77.6% 87.7% 8.65 B+ (3.35) C+ (2.61)
Cheng, Hsiao-Bing MATH 18 - Linear Algebra (A) FA18203 107 85.4% 83.0% 7.48 B- (2.99) C+ (2.53)
Eggers, John Dietrich MATH 18 - Linear Algebra (B) FA18193 83 82.1% 82.1% 7.17 B (3.22) B (3.05)
Wenzl, Hans G MATH 18 - Linear Algebra (C) FA18303 153 75.4% 59.2% 6.96 B (3.17) B- (2.92)
Novak, Jonathan I MATH 18 - Linear Algebra (D) FA18288 229 92.0% 88.4% 6.21 B+ (3.53) B+ (3.63)
Tamam, Nattalie MATH 18 - Linear Algebra (E) FA18183 165 59.1% 35.0% 7.24 B (3.19) C+ (2.69)
Au, Benson C MATH 180A - Introduction to Probability (A) FA18126 54 63.5% 56.9% 8.07 B (3.00) B- (2.90)
Zheng, Tianyi MATH 180A - Introduction to Probability (B) FA18200 77 64.4% 48.6% 7.28 B (3.13) B (3.02)
Zheng, Tianyi MATH 180A - Introduction to Probability (C) FA18178 73 58.7% 45.9% 7.56 B (3.21) B (3.02)
Zhang, Danna MATH 181B - Intro/Math Statistics II (A) FA18124 46 97.6% 97.6% 9.26 B+ (3.59) B+ (3.33)
Quarfoot, David James MATH 183 - Statistical Methods (A) FA18282 120 73.7% 81.1% 9.43 B (3.04) B- (2.72)
Sam, Steven V MATH 184A - Combinatorics (A) FA18103 68 77.9% 82.4% 8.01 B- (2.95) B- (2.73)
Rhoades, Brendon Patrick MATH 184A - Combinatorics (B) FA18127 106 89.4% 98.1% 8.22 B+ (3.38) B- (2.78)
Um, Ko Woon MATH 2 - Intro to College Mathematics (A) FA1834 19 70.6% 64.7% 3.32 B- (2.71) C (2.17)
Harel, Guershon MATH 2 - Intro to College Mathematics (B) FA1827 20 90.0% 100.0% 6.30 B- (2.90) C+ (2.58)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (A) FA18294 157 84.1% 76.9% 6.34 B (3.00) C (2.26)
Xu, Lingling MATH 20A - Calculus/Science & Engineering (B) FA18147 76 74.3% 40.3% 5.34 B (3.08) B- (2.72)
Buskin, Nikolay MATH 20A - Calculus/Science & Engineering (C) FA18218 116 77.3% 49.1% 5.17 B (3.14) C+ (2.57)
Anzaldo, Leesa B MATH 20A - Calculus/Science & Engineering (D) FA18202 115 97.3% 98.2% 5.32 B (3.27) B- (2.76)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (A) FA18284 143 91.2% 100.0% 6.30 B+ (3.35) C+ (2.30)
Quarfoot, David James MATH 20B - Calculus/Science & Engineering (B) FA18286 160 77.6% 86.2% 8.38 B- (2.90) C (2.29)
Stapleton, David John MATH 20B - Calculus/Science & Engineering (C) FA18286 164 87.2% 86.5% 5.98 B (3.21) B- (2.85)
Ciotti, Benjamin MATH 20B - Calculus/Science & Engineering (D) FA18247 139 80.3% 75.0% 7.77 B- (2.94) C+ (2.59)
Ferrara, Joseph William MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA18188 110 77.7% 54.9% 7.47 B (3.19) B- (2.78)
Ben-Ezra, David El-Chai MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA18251 125 95.8% 95.8% 5.52 B+ (3.66) B (3.26)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA18315 155 90.6% 89.5% 6.58 B+ (3.51) C+ (2.68)
Strahl, Perry Robert MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA18331 303 86.8% 77.7% 5.22 B+ (3.49) B (3.12)
Dewey, Edward Harold MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA18194 120 73.9% 54.0% 7.55 B- (2.97) B- (2.96)
Wang, Lujia MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) FA18191 132 67.7% 37.8% 7.28 B (3.26) B- (2.72)
Hammock, Frances H MATH 20D - Intro/Differential Equations (A) FA18130 56 92.3% 94.1% 6.19 B+ (3.65) B (3.05)
Wang, Lujia MATH 20D - Intro/Differential Equations (B) FA1871 29 92.3% 53.8% 6.35 B+ (3.50) C+ (2.42)
Bach, Quang Tran MATH 20D - Intro/Differential Equations (C) FA18310 157 91.2% 94.6% 6.98 B+ (3.30) B (3.18)
Kitsela, Roman MATH 20D - Intro/Differential Equations (D) FA18139 115 81.7% 87.8% 6.80 B (3.19) B- (2.80)
Strahl, Perry Robert MATH 20E - Vector Calculus (A) FA18258 199 92.9% 90.9% 5.94 B+ (3.48) B+ (3.36)
Lu, Shaoying MATH 20E - Vector Calculus (B) FA18191 79 71.0% 54.4% 6.73 B (3.20) B (3.06)
Cheng, Hsiao-Bing MATH 20E - Vector Calculus (C) FA18197 88 75.6% 73.3% 7.88 B (3.00) C+ (2.65)
Agler, Jim MATH 31AH - Honors Linear Algebra (A) FA1860 36 80.0% 80.0% 7.53 B+ (3.44) B+ (3.45)
Tu, Yucheng MATH 3C - Precalculus (A) FA18183 107 77.2% 57.6% 4.71 B (3.11) B (3.07)
Mirzaei, Mozhgan MATH 3C - Precalculus (B) FA18145 76 80.8% 76.4% 4.09 A- (3.74) B+ (3.50)
Conder, Jonathan Edward MATH 3C - Precalculus (C) FA18125 71 31.8% 17.2% 5.95 C+ (2.42) C+ (2.55)
Zhang, Yongjia MATH 4C - Pre-calculus for Sci & Engn (A) FA18157 95 71.7% 62.0% 4.59 B- (2.98) B (3.05)
Bunch, James R. MATH 87 - Freshman Seminar (B) FA1815 12 100.0% 100.0% 0.83 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (C) FA1810 5 100.0% 100.0% 0.90 A (4.00) N/A
Kane, Daniel Mertz MATH 96 - Putnam Seminar (A) FA1826 14 100.0% 100.0% 4.04 N/A N/A
Bach, Quang Tran MATH 2 - Intro to College Mathematics (A) S3189 4 100.0% 100.0% 5.50 B (3.00) N/A
Jones, Miles E MATH 3C - Precalculus (A) S31814 9 100.0% 100.0% 8.00 B+ (3.33) N/A
Jones, Miles E MATH 3C - Precalculus (B) S31816 8 100.0% 100.0% 7.50 B+ (3.43) N/A
Harel, Guershon MATH 102 - Applied Linear Algebra (A) S21876 11 100.0% 90.0% 9.95 B+ (3.40) C- (1.71)
Strahl, Perry Robert MATH 103B - Modern Algebra II (A) S21867 53 56.6% 67.3% 9.78 C+ (2.55) C+ (2.34)
Strahl, Perry Robert MATH 109 - Mathematical Reasoning (A) S21843 30 76.7% 63.3% 8.10 B (3.23) C+ (2.52)
Malvenuto, Claudia MATH 10B - Calculus II (A) S21888 33 80.6% 67.7% 6.90 B (3.29) C+ (2.39)
Rotar, Vladimir MATH 10C - Calculus III (A) S21887 55 90.9% 88.9% 8.72 B (3.19) B (3.20)
Behzadan, Ali MATH 120A - Elements of Complex Analysis (A) S21875 27 100.0% 100.0% 8.28 A- (3.74) B (3.12)
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) S21885 21 57.1% 65.0% 10.40 B- (2.95) C+ (2.58)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21836 13 90.0% 100.0% 8.17 B+ (3.33) B- (2.72)
Harel, Guershon MATH 18 - Linear Algebra (A) S218112 40 84.6% 69.4% 9.95 A- (3.79) C+ (2.69)
Malvenuto, Claudia MATH 184A - Combinatorics (A) S21873 13 100.0% 58.3% 9.17 B+ (3.67) B (3.16)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21850 24 95.8% 95.8% 8.75 B+ (3.43) B+ (3.37)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (A) S21844 10 80.0% 90.0% 7.50 B- (2.90) C+ (2.37)
Chow, Bennett MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S21888 41 81.6% 55.3% 8.66 B+ (3.33) B- (2.87)
Kitsela, Roman MATH 20D - Intro/Differential Equations (A) S218119 83 95.1% 89.0% 6.77 B+ (3.51) B+ (3.37)
Chow, Bennett MATH 20E - Vector Calculus (A) S218139 36 61.8% 38.2% 9.47 B+ (3.39) B (3.01)
Carter, Anne Toulson MATH 103A - Modern Algebra I (A) S118107 22 94.7% 83.3% 11.97 B+ (3.37) C+ (2.66)
Thilmany, Francois Etienne Ch MATH 104A - Number Theory I (A) S11812 6 100.0% 100.0% 11.83 A- (3.83) N/A
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S11884 30 66.7% 57.1% 10.10 B- (2.86) B- (2.80)
Ceccherini-Silberstein, Tullio MATH 10A - Calculus I (A) S11863 26 96.0% 95.8% 7.38 C+ (2.70) B- (2.72)
Rotar, Vladimir MATH 10B - Calculus II (A) S11854 38 78.9% 71.1% 6.76 B- (2.79) B (3.14)
Behzadan, Ali MATH 110A - Intro/Partial Differ Equations (A) S11891 53 100.0% 100.0% 7.56 A- (3.75) B+ (3.45)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) S118150 41 90.2% 97.5% 8.74 B+ (3.56) B (3.25)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (A) S118137 48 93.5% 95.7% 8.85 B+ (3.58) B- (2.83)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S118119 86 94.1% 92.9% 8.15 B+ (3.44) B (3.29)
Ceccherini-Silberstein, Tullio MATH 20A - Calculus/Science & Engineering (A) S11839 20 84.2% 70.6% 7.90 C+ (2.44) C+ (2.44)
Mohanty, Sara MATH 20B - Calculus/Science & Engineering (A) S11865 22 76.2% 81.0% 7.93 B (3.00) D+ (1.60)
Chow, Bennett MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S11892 24 87.0% 63.6% 9.02 B+ (3.43) B- (2.95)
Mohanty, Sara MATH 20D - Intro/Differential Equations (A) S11868 19 88.2% 76.5% 8.72 B+ (3.50) C+ (2.65)
Strahl, Perry Robert MATH 20E - Vector Calculus (A) S118135 73 82.2% 87.5% 7.21 B (3.27) C+ (2.61)
Mirzaei, Mozhgan MATH 4C - Pre-calculus for Sci & Engn (A) S11825 13 100.0% 100.0% 5.42 B+ (3.46) B+ (3.70)
Kedlaya, Kiran S. MATH 100C - Abstract Algebra III (A) SP1824 12 100.0% 83.3% 13.17 B+ (3.36) B (3.01)
Salehi Golsefidy, Alireza MATH 103B - Modern Algebra II (A) SP18141 51 67.3% 79.2% 9.88 B- (2.84) B- (2.80)
Popescu, Cristian D. MATH 103B - Modern Algebra II (B) SP1860 20 95.0% 95.0% 9.03 B (3.22) B- (2.86)
McKernan, James MATH 104C - Number Theory III (A) SP1811 3 100.0% 100.0% 6.50 B+ (3.67) N/A
Meyer, David A. MATH 109 - Mathematical Reasoning (A) SP1885 23 90.9% 90.9% 5.86 B+ (3.43) B- (2.92)
Curry, Sean N MATH 109 - Mathematical Reasoning (B) SP1881 34 82.4% 93.9% 6.91 B (3.03) B- (2.99)
Meyer, David A. MATH 109 - Mathematical Reasoning (C) SP1891 33 81.8% 93.9% 6.56 B (3.06) B- (2.92)
Sorensen, Claus M MATH 109 - Mathematical Reasoning (D) SP1851 42 97.6% 95.2% 6.93 B (3.28) B (3.05)
Snellman Jr., Robert Allen MATH 10A - Calculus I (A) SP18251 124 95.8% 100.0% 5.89 B+ (3.32) B (3.10)
Petkov, Vladislav V MATH 10B - Calculus II (A) SP18184 89 84.5% 81.0% 5.74 B (3.04) B- (2.96)
Tucker, Henry Jackson MATH 10B - Calculus II (B) SP18242 105 79.2% 77.0% 6.20 B (3.10) B- (2.78)
Strahl, Perry Robert MATH 10C - Calculus III (A) SP1899 78 77.3% 76.0% 5.78 B (3.26) B- (2.92)
Licht, Martin W MATH 10C - Calculus III (B) SP18192 128 84.7% 72.6% 5.17 B (3.30) B (3.09)
Aghajani, Mohammadreza MATH 11 - Calculus-Based Prob & Stats (A) SP18179 95 73.9% 79.1% 6.50 B (3.25) B- (2.86)
Quarfoot, David James MATH 11 - Calculus-Based Prob & Stats (B) SP18290 130 85.1% 94.1% 6.62 B (3.26) B- (2.92)
Driver, Bruce K MATH 120B - Applied Complex Analysis (A) SP1846 12 100.0% 100.0% 7.23 A- (3.90) B- (2.99)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1824 22 100.0% 100.0% 4.50 B+ (3.37) B (3.18)
Saab, Rayan MATH 140C - Foundations/Real Analysis III (A) SP1838 31 96.8% 93.5% 10.37 B+ (3.50) B (3.19)
Curry, Sean N MATH 142B - Introduction to Analysis II (A) SP18168 82 84.4% 98.7% 8.26 B (3.24) B- (2.94)
Buskin, Nikolay MATH 142B - Introduction to Analysis II (B) SP1856 17 88.2% 81.3% 8.03 B (3.19) B- (2.89)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) SP1817 9 100.0% 100.0% 6.72 B+ (3.56) N/A
Huynh, Thang L MATH 152 - Applicable Math and Computing (A) SP18173 50 68.1% 72.3% 4.80 B (3.16) B+ (3.43)
Knop, Aleksandr MATH 152 - Applicable Math and Computing (B) SP18211 141 84.4% 80.9% 5.59 B (3.25) B+ (3.31)
Buss, Samuel R MATH 155B - Topics in Computer Graphics (A) SP1828 8 75.0% 87.5% 12.00 B+ (3.33) B+ (3.47)
Saab, Rayan MATH 170B - Intro/Numerical Analy/Approxim (A) SP18260 201 87.1% 96.5% 7.47 B (3.14) B- (2.83)
Li, Bo MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1839 14 92.3% 100.0% 7.12 B+ (3.69) B (3.08)
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1868 28 85.7% 92.9% 9.14 B+ (3.50) B- (2.91)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP1836 10 90.0% 90.0% 8.30 B (3.20) B (3.27)
Snellman Jr., Robert Allen MATH 18 - Linear Algebra (A) SP18289 116 94.6% 98.2% 5.62 B+ (3.48) B (3.21)
Dewey, Edward Harold MATH 18 - Linear Algebra (B) SP18103 36 70.6% 73.5% 7.74 B+ (3.39) B- (2.83)
Szypowski, Ryan S. MATH 18 - Linear Algebra (D) SP18156 61 90.7% 98.1% 5.30 B+ (3.56) B- (2.74)
Um, Ko Woon MATH 18 - Linear Algebra (E) SP18281 88 70.7% 69.5% 5.50 B+ (3.38) B- (2.77)
Fitzsimmons, Patrick J MATH 180C - Intro/Stochastic Processes II (A) SP18215 66 68.3% 65.0% 9.53 B (3.02) C+ (2.66)
Zhou, Wenxin MATH 181A - Intro/Math Statistics I (A) SP18195 69 43.8% 20.6% 8.34 B- (2.81) B (3.04)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) SP18107 35 83.3% 65.5% 6.97 B+ (3.47) B- (2.81)
Aamari, Eddie MATH 181B - Intro/Math Statistics II (B) SP1861 20 66.7% 55.6% 7.83 B+ (3.33) B (3.27)
Quarfoot, David James MATH 183 - Statistical Methods (A) SP18305 106 92.2% 95.0% 8.96 B (3.29) B- (2.79)
Bach, Quang Tran MATH 184A - Combinatorics (A) SP18159 48 87.0% 95.7% 9.63 B- (2.93) B- (2.72)
Kane, Daniel Mertz MATH 184A - Combinatorics (B) SP18195 64 72.1% 81.7% 10.50 B (3.10) B- (2.82)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP18126 37 84.8% 81.3% 7.79 B+ (3.62) B+ (3.38)
Bach, Quang Tran MATH 187A - Introduction to Cryptography (A) SP18183 56 98.1% 98.1% 5.97 A- (3.77) B+ (3.63)
Bucur, Alina Ioana MATH 187B - Math of Modern Cryptography (A) SP1859 36 94.4% 88.6% 6.04 B+ (3.60) B+ (3.56)
Bradic, Jelena MATH 189 - Data Analysis and Inference (A) SP18134 35 87.9% 87.9% 10.56 A- (3.74) B+ (3.48)
Huynh, Thang L MATH 20A - Calculus/Science & Engineering (A) SP18127 50 81.3% 81.3% 6.38 B (3.04) C+ (2.56)
Charlesworth, Ian L MATH 20B - Calculus/Science & Engineering (A) SP18138 53 64.0% 24.0% 7.56 C+ (2.59) C (2.25)
Ciotti, Benjamin MATH 20B - Calculus/Science & Engineering (B) SP18156 61 75.0% 72.7% 7.70 B- (2.78) C+ (2.45)
Cloninger, Alexander MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP18156 56 86.3% 93.5% 6.15 B (3.12) C+ (2.62)
Szypowski, Ryan S. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP18301 139 93.2% 97.7% 5.89 B (3.26) B- (2.89)
Ben-Ezra, David El-Chai MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP18230 80 96.1% 88.2% 5.44 B+ (3.49) B (3.14)
Petkov, Vladislav V MATH 20D - Intro/Differential Equations (A) SP1859 21 95.0% 90.0% 5.10 B+ (3.50) B+ (3.31)
Carter, Anne Toulson MATH 20D - Intro/Differential Equations (B) SP18352 152 97.2% 94.3% 7.06 A- (3.73) B+ (3.33)
Allen, Grant Warren MATH 20D - Intro/Differential Equations (C) SP18280 119 94.5% 96.2% 6.21 B+ (3.39) B+ (3.52)
Um, Ko Woon MATH 20E - Vector Calculus (A) SP18307 91 65.9% 76.1% 6.29 B (3.28) C+ (2.59)
Dilts, James Paul MATH 20E - Vector Calculus (B) SP18279 114 74.3% 81.6% 7.35 B (3.13) B- (2.87)
Rogalski, Daniel MATH 31CH - Honors Vector Calculus (A) SP1820 11 100.0% 100.0% 11.50 A (4.00) B+ (3.58)
Strahl, Perry Robert MATH 3C - Precalculus (A) SP1874 59 89.5% 94.6% 6.11 B (3.13) C+ (2.62)
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) SP1819 15 100.0% 100.0% 0.77 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1834 22 100.0% 100.0% 1.45 A- (3.89) A- (3.94)
Kedlaya, Kiran S. MATH 100B - Abstract Algebra II (A) WI1857 25 77.3% 77.3% 11.32 B (3.29) C+ (2.68)
Huynh, Thang L MATH 102 - Applied Linear Algebra (A) WI18269 90 88.9% 71.6% 6.18 B+ (3.49) B- (2.73)
Strahl, Perry Robert MATH 102 - Applied Linear Algebra (B) WI1845 31 67.7% 71.0% 7.43 B (3.16) C+ (2.64)
Pelayo, Alvaro MATH 103A - Modern Algebra I (A) WI1865 39 84.6% 97.4% 6.82 B- (2.95) B- (2.82)
Popescu, Cristian D. MATH 103A - Modern Algebra I (B) WI1865 30 85.7% 88.5% 9.57 C+ (2.61) B- (2.78)
Stapleton, David John MATH 103A - Modern Algebra I (D) WI1866 28 77.8% 96.2% 8.87 B (3.11) C+ (2.69)
Sorensen, Claus M MATH 103B - Modern Algebra II (A) WI1895 79 43.0% 59.5% 10.42 B- (2.72) B (3.01)
Zelmanov, Efim I MATH 103B - Modern Algebra II (B) WI18134 48 64.4% 68.2% 7.52 B- (2.77) B- (2.78)
McKernan, James MATH 104B - Number Theory II (A) WI1821 9 62.5% 100.0% 9.25 B+ (3.38) B- (2.87)
Carter, Anne Toulson MATH 109 - Mathematical Reasoning (A) WI18113 43 87.2% 92.1% 10.24 B+ (3.49) B (3.11)
Licht, Martin W MATH 109 - Mathematical Reasoning (B) WI1876 55 80.0% 80.0% 6.65 B+ (3.38) C+ (2.70)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (C) WI18102 51 98.0% 93.9% 6.38 B (3.22) B- (2.82)
Chow, Bennett MATH 109 - Mathematical Reasoning (D) WI1888 33 74.2% 74.2% 9.66 B+ (3.39) B (3.11)
Ioana, Adrian MATH 109 - Mathematical Reasoning (E) WI1834 14 100.0% 100.0% 5.58 B+ (3.62) B (3.16)
Um, Ko Woon MATH 10A - Calculus I (A) WI18294 160 67.8% 71.3% 6.89 C+ (2.52) C (2.19)
Quarfoot, David James MATH 10A - Calculus I (B) WI18190 108 86.4% 95.1% 7.10 C+ (2.61) C- (1.97)
Stevens, Laura Jeanne MATH 10B - Calculus II (A) WI18367 234 91.4% 99.5% 6.61 B (3.10) B- (2.83)
Tucker, Henry Jackson MATH 10B - Calculus II (B) WI18206 128 77.5% 54.2% 6.55 B- (2.91) C+ (2.70)
Licht, Martin W MATH 10B - Calculus II (C) WI18194 138 64.1% 15.6% 6.85 B- (2.78) B- (2.84)
Szypowski, Ryan S. MATH 10C - Calculus III (A) WI18195 103 93.7% 97.9% 5.68 B (3.30) B- (2.79)
Lamel, Bernhard R MATH 10C - Calculus III (B) WI18162 84 81.5% 72.8% 4.77 B+ (3.46) B (3.21)
Kane, Daniel Mertz MATH 11 - Calculus-Based Prob & Stats (A) WI18267 150 67.6% 57.3% 7.78 B (3.21) B- (2.73)
Aamari, Eddie MATH 11 - Calculus-Based Prob & Stats (B) WI18178 102 76.5% 74.2% 7.64 B (3.23) B- (2.76)
Zlatos, Andrej MATH 110B - Partial Diff Equa&Integral Equ (A) WI186 4 75.0% 100.0% 9.50 B (3.25) N/A
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) WI1865 28 95.7% 91.3% 6.33 B (3.25) C+ (2.40)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1831 19 100.0% 100.0% 4.18 B+ (3.42) B+ (3.30)
Mohammadi, Amir MATH 140B - Foundations/Real Analysis II (A) WI1845 23 90.5% 95.2% 10.59 B+ (3.35) B- (2.77)
Elgindi, Tarek M MATH 140B - Foundations/Real Analysis II (B) WI1820 9 66.7% 100.0% 10.25 B+ (3.38) B- (2.74)
Curry, Sean N MATH 142A - Introduction to Analysis I (A) WI18142 69 86.2% 96.9% 8.44 B+ (3.34) B (3.08)
Sterbenz, Jacob MATH 142A - Introduction to Analysis I (B) WI1840 32 61.3% 80.6% 9.21 C+ (2.64) C (2.13)
Dewey, Edward Harold MATH 142B - Introduction to Analysis II (A) WI1870 23 57.1% 76.2% 7.45 B- (2.90) B- (2.83)
Charlesworth, Ian L MATH 142B - Introduction to Analysis II (B) WI1874 34 64.7% 61.8% 8.85 B- (2.97) B- (2.85)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) WI1836 17 94.1% 100.0% 6.03 B (3.29) B- (2.91)
Cloninger, Alexander MATH 152 - Applicable Math and Computing (A) WI1866 27 72.0% 96.0% 7.86 B (3.09) B (3.18)
Suk, Andrew Hoon MATH 154 - Discrete Math & Graph Theory (A) WI18104 44 90.2% 90.2% 6.21 B+ (3.30) C+ (2.68)
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI1865 32 93.1% 96.6% 8.91 B+ (3.57) B+ (3.49)
Kedlaya, Kiran S. MATH 157 - Intro to Mathematical Software (A) WI18153 69 60.3% 67.7% 10.31 B+ (3.52) B+ (3.45)
Knop, Aleksandr MATH 15A - Intro/Discrete Mathematics (A) WI1822 14 85.7% 78.6% 4.50 B (3.08) B- (2.88)
Bowers, Adam R. MATH 163 - History of Mathematics (A) WI1854 25 62.5% 83.3% 4.92 B- (2.83) B- (2.70)
Dilts, James Paul MATH 170A - Intro Numerical Analys/Linear (A) WI18191 82 80.3% 81.6% 8.99 B (3.15) B- (2.85)
Szypowski, Ryan S. MATH 170A - Intro Numerical Analys/Linear (B) WI18105 38 94.6% 97.3% 6.01 B+ (3.67) B (3.16)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) WI18183 65 76.2% 82.5% 8.40 B (3.11) C+ (2.45)
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI18119 46 75.6% 65.9% 9.40 B (3.15) B (3.04)
Eggers, John Dietrich MATH 18 - Linear Algebra (A) WI18229 110 73.8% 71.7% 7.01 B (3.05) C+ (2.62)
Kemp, Todd Aahron MATH 18 - Linear Algebra (B) WI18211 117 88.6% 95.6% 6.39 B (3.12) B- (2.88)
Kemp, Todd Aahron MATH 18 - Linear Algebra (C) WI18217 115 83.9% 94.6% 6.89 B (3.14) B- (2.88)
Zhou, Wenxin MATH 18 - Linear Algebra (D) WI18199 105 83.0% 45.5% 5.63 B+ (3.55) B+ (3.39)
Kolesnikov, Pavel MATH 18 - Linear Algebra (E) WI18160 72 84.6% 71.9% 5.74 B (3.29) B- (2.97)
Aghajani, Mohammadreza MATH 180A - Introduction to Probability (A) WI18252 133 93.8% 88.3% 7.12 B (3.29) B- (2.91)
Meyer, David A. MATH 180B - Intro/Stochastic Processes I (A) WI1894 29 84.6% 65.4% 7.76 B (3.04) B (3.01)
Schweinsberg, Jason MATH 180B - Intro/Stochastic Processes I (B) WI18196 96 94.5% 96.6% 9.90 B+ (3.49) B (3.12)
Zhang, Danna MATH 181A - Intro/Math Statistics I (A) WI18145 66 97.0% 98.5% 6.77 B+ (3.50) B+ (3.35)
Politis, Dimitris MATH 181A - Intro/Math Statistics I (B) WI1886 27 87.0% 52.2% 7.23 B+ (3.38) B- (2.78)
Novak, Jonathan I MATH 184A - Combinatorics (A) WI18145 144 87.5% 94.4% 6.36 B (3.29) B+ (3.67)
Knop, Aleksandr MATH 184A - Combinatorics (B) WI1863 45 88.6% 61.4% 7.41 B (3.09) B (3.01)
Zhou, Wenxin MATH 185 - Intro to Computational Stats (A) WI1873 25 84.0% 76.0% 6.74 A- (3.83) B+ (3.56)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1875 34 83.9% 80.0% 6.37 B+ (3.30) B- (2.72)
Bucur, Alina Ioana MATH 187A - Introduction to Cryptography (A) WI18244 189 93.6% 72.3% 4.23 A- (3.81) B+ (3.63)
Bradic, Jelena MATH 189 - Data Analysis and Inference (A) WI1885 28 92.6% 74.1% 9.09 B+ (3.60) A- (3.71)
Rhoades, Brendon Patrick MATH 190 - Introduction to Topology (A) WI1831 25 87.5% 100.0% 8.41 B (3.18) B (3.10)
Aghajani, Mohammadreza MATH 194 - The Mathematics of Finance (A) WI18144 62 96.7% 96.6% 6.64 B+ (3.68) B (3.16)
Harel, Guershon MATH 2 - Intro to College Mathematics (B) WI1812 9 88.9% 87.5% 6.94 B (3.13) N/A
Quarfoot, David James MATH 20A - Calculus/Science & Engineering (A) WI18179 110 87.3% 86.1% 8.03 C+ (2.65) C- (1.88)
Harel, Guershon MATH 20A - Calculus/Science & Engineering (B) WI1851 26 73.1% 69.2% 5.73 C+ (2.65) C- (1.76)
Curry, Sean N MATH 20B - Calculus/Science & Engineering (A) WI18200 123 85.8% 93.2% 6.70 B (3.00) C (2.28)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (B) WI18200 112 82.7% 89.3% 7.28 B- (2.74) C+ (2.38)
Petkov, Vladislav V MATH 20B - Calculus/Science & Engineering (C) WI18192 106 61.2% 42.0% 7.78 C+ (2.70) C+ (2.51)
Strahl, Perry Robert MATH 20B - Calculus/Science & Engineering (D) WI18165 139 71.5% 63.2% 7.03 B- (2.82) C+ (2.57)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI18187 94 88.6% 86.2% 6.46 B (3.20) B- (2.81)
Snellman Jr., Robert Allen MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI18193 116 98.2% 96.4% 5.29 B+ (3.65) B+ (3.66)
Allen, Grant Warren MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI18211 127 86.6% 84.7% 5.58 B+ (3.31) B+ (3.31)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI18191 104 94.9% 85.7% 5.75 B+ (3.52) B- (2.80)
Chow, Bennett MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI18167 108 81.6% 62.1% 7.22 B+ (3.36) B (3.12)
Snellman Jr., Robert Allen MATH 20D - Intro/Differential Equations (A) WI18189 94 98.9% 98.9% 6.39 A- (3.71) B+ (3.53)
Ben-Ezra, David El-Chai MATH 20D - Intro/Differential Equations (B) WI18207 95 92.1% 86.5% 5.60 B+ (3.47) B+ (3.46)
Petkov, Vladislav V MATH 20D - Intro/Differential Equations (C) WI18160 76 82.4% 50.0% 5.40 B+ (3.40) B- (2.94)
Kolesnikov, Pavel MATH 20D - Intro/Differential Equations (D) WI18147 69 86.6% 80.0% 6.50 B (3.26) B- (2.95)
Buskin, Nikolay MATH 20E - Vector Calculus (A) WI18140 50 91.5% 74.5% 6.67 B (3.26) B- (2.91)
Sterbenz, Jacob MATH 20E - Vector Calculus (B) WI18191 90 84.3% 85.5% 6.57 B+ (3.42) B- (2.74)
Aamari, Eddie MATH 20E - Vector Calculus (C) WI18174 76 86.1% 75.0% 6.96 B (3.26) B (3.09)
Rogalski, Daniel MATH 31BH - Honors Multivariable Calculus (A) WI1823 18 94.1% 93.8% 10.15 A- (3.71) B+ (3.48)
Um, Ko Woon MATH 3C - Precalculus (A) WI18169 91 78.8% 87.3% 5.86 C+ (2.67) C+ (2.51)
Ciotti, Benjamin MATH 4C - Pre-calculus for Sci & Engn (A) WI1847 26 92.0% 92.0% 8.34 B- (2.83) C+ (2.51)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1811 11 90.9% 90.9% 0.50 N/A N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1810 8 37.5% 50.0% 6.25 B (3.00) N/A
Kedlaya, Kiran S. MATH 100A - Abstract Algebra I (A) FA1762 28 80.8% 84.6% 9.50 B (3.20) B- (2.73)
Stapleton, David John MATH 100A - Abstract Algebra I (B) FA1760 22 95.0% 90.0% 9.10 B (3.25) B- (2.91)
Novak, Jonathan I MATH 102 - Applied Linear Algebra (A) FA17124 107 82.2% 79.4% 7.41 B (3.12) B+ (3.55)
Licht, Martin W MATH 102 - Applied Linear Algebra (B) FA17158 94 90.2% 86.8% 6.46 B+ (3.56) B+ (3.44)
Sorensen, Claus M MATH 103A - Modern Algebra I (A) FA17135 118 72.4% 79.3% 8.66 B- (2.98) B (3.02)
Novak, Jonathan I MATH 103A - Modern Algebra I (B) FA17142 138 86.9% 94.9% 6.60 B+ (3.40) B (3.19)
McKernan, James MATH 104A - Number Theory I (B) FA1743 15 73.3% 66.7% 7.07 B (3.14) B- (2.88)
Strahl, Perry Robert MATH 109 - Mathematical Reasoning (A) FA1798 78 69.7% 59.2% 9.24 B- (2.72) C (2.19)
Mohammadi, Amir MATH 109 - Mathematical Reasoning (B) FA17119 39 88.9% 94.4% 7.94 B- (2.80) C+ (2.35)
Xiao, Ming MATH 109 - Mathematical Reasoning (C) FA17112 46 91.3% 97.8% 6.93 B+ (3.52) B (3.01)
Buskin, Nikolay MATH 109 - Mathematical Reasoning (D) FA1763 23 90.5% 47.6% 6.31 B (3.11) C+ (2.55)
Ioana, Adrian MATH 109 - Mathematical Reasoning (E) FA1763 26 91.7% 95.8% 7.88 B (3.08) C+ (2.67)
Stevens, Laura Jeanne MATH 10A - Calculus I (A) FA17313 165 95.5% 97.4% 6.62 B (3.17) C+ (2.63)
Cloninger, Alexander MATH 10A - Calculus I (B) FA17203 107 92.1% 96.0% 5.83 B (3.24) C+ (2.63)
Tucker, Henry Jackson MATH 10A - Calculus I (C) FA17280 159 80.9% 43.2% 5.39 B (3.18) C+ (2.52)
Pralat, Pawel A MATH 10B - Calculus II (A) FA17302 171 81.9% 58.6% 5.33 B (3.10) B- (2.88)
Quarfoot, David James MATH 10B - Calculus II (B) FA17297 138 86.4% 83.8% 6.95 B (3.04) B- (2.75)
Oprea, Dragos N. MATH 10C - Calculus III (A) FA17311 116 91.8% 92.6% 6.85 B (3.28) B- (2.84)
Szypowski, Ryan S. MATH 10C - Calculus III (B) FA17181 94 93.4% 96.7% 5.64 B+ (3.46) B- (2.85)
Zhang, Danna MATH 11 - Calculus-Based Prob & Stats (A) FA17129 76 77.0% 59.7% 6.75 B+ (3.56) B (3.14)
Schweinsberg, Jason MATH 11 - Calculus-Based Prob & Stats (B) FA17201 111 84.6% 89.4% 9.55 B (3.22) B- (2.91)
Zlatos, Andrej MATH 110A - Intro/Partial Differ Equations (A) FA1753 10 40.0% 66.7% 7.90 B (3.10) B- (2.79)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1733 14 100.0% 100.0% 5.07 B+ (3.64) A- (3.78)
Meyer, David A. MATH 111A - Mathematical Modeling I (B) FA1734 14 100.0% 100.0% 6.50 A- (3.77) A- (3.78)
Rabin, Jeffrey Mark MATH 120A - Elements of Complex Analysis (A) FA1763 25 86.4% 85.7% 7.41 B+ (3.40) C+ (2.56)
Sterbenz, Jacob MATH 130A - Ordinary Differntl Equation I (A) FA1759 16 50.0% 57.1% 9.21 B (3.07) C+ (2.67)
Mohammadi, Amir MATH 140A - Foundations of Real Analysis I (A) FA1768 28 80.8% 96.2% 11.46 B- (2.73) C+ (2.37)
Elgindi, Tarek M MATH 140A - Foundations of Real Analysis I (B) FA1754 17 94.1% 94.1% 10.50 B+ (3.35) C+ (2.68)
Eggers, John Dietrich MATH 142A - Introduction to Analysis I (A) FA17104 35 83.9% 96.6% 8.10 B (3.17) C+ (2.54)
Bejenaru, Ioan MATH 142A - Introduction to Analysis I (B) FA1777 19 88.9% 94.4% 7.83 B (3.16) C+ (2.62)
Charlesworth, Ian L MATH 142A - Introduction to Analysis I (C) FA1783 41 60.5% 47.4% 11.03 B (3.00) B- (2.73)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA1727 5 100.0% 100.0% 7.70 A (4.00) A- (3.72)
Dilts, James Paul MATH 170A - Intro Numerical Analys/Linear (A) FA17217 83 85.9% 91.0% 8.79 B+ (3.36) B (3.02)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (B) FA17179 55 68.6% 80.4% 7.78 B- (2.84) C+ (2.34)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA17109 34 63.3% 76.7% 6.97 B- (2.87) C+ (2.47)
Bach, Quang Tran MATH 18 - Linear Algebra (A) FA17199 105 94.0% 99.0% 6.05 B+ (3.44) B- (2.99)
Stevens, Laura Jeanne MATH 18 - Linear Algebra (B) FA17309 139 94.4% 97.6% 6.50 B+ (3.48) B- (2.87)
Charlesworth, Ian L MATH 18 - Linear Algebra (C) FA17178 101 59.2% 37.1% 7.93 B (3.03) B- (2.88)
Snellman Jr., Robert Allen MATH 18 - Linear Algebra (D) FA17213 99 92.6% 94.6% 6.01 B+ (3.41) B (3.21)
Knop, Aleksandr MATH 18 - Linear Algebra (E) FA17193 129 60.0% 25.8% 6.56 B (3.25) B- (2.83)
Zhang, Danna MATH 180A - Introduction to Probability (A) FA17194 77 85.9% 84.1% 6.87 B+ (3.47) B (3.16)
Schweinsberg, Jason MATH 180A - Introduction to Probability (B) FA17302 109 96.2% 94.2% 8.17 B+ (3.39) B (3.03)
Aghajani, Mohammadreza MATH 180A - Introduction to Probability (C) FA17126 48 88.6% 88.6% 7.27 B (3.23) B- (2.89)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) FA1784 34 90.3% 83.9% 7.98 B+ (3.58) B (3.04)
Abramson, Ian S MATH 181C - Math Statistics-Nonparametric (A) FA1733 12 63.6% 77.8% 7.77 B+ (3.33) B+ (3.47)
Aamari, Eddie MATH 183 - Statistical Methods (A) FA17203 87 87.5% 76.3% 6.40 B+ (3.49) B- (2.91)
Rhoades, Brendon Patrick MATH 184A - Combinatorics (A) FA17142 83 83.1% 92.8% 8.72 B (3.16) B- (2.83)
Tesler, Glenn MATH 184A - Combinatorics (B) FA17138 55 90.0% 86.0% 8.62 B (3.28) C+ (2.65)
Um, Ko Woon MATH 2 - Intro to College Mathematics (A) FA1734 15 69.2% 69.2% 5.58 C+ (2.46) C- (1.93)
Harel, Guershon MATH 2 - Intro to College Mathematics (B) FA1730 15 76.9% 53.8% 5.42 B (3.00) C+ (2.57)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (A) FA17287 139 91.0% 92.4% 5.63 B+ (3.39) C+ (2.51)
Xiao, Ming MATH 20A - Calculus/Science & Engineering (B) FA17145 76 94.5% 87.7% 5.99 B (3.18) C+ (2.66)
Suk, Andrew Hoon MATH 20A - Calculus/Science & Engineering (C) FA17284 156 89.1% 74.0% 5.63 B (3.00) B- (2.79)
Pralat, Pawel A MATH 20A - Calculus/Science & Engineering (D) FA1788 43 97.6% 80.0% 4.65 B (3.28) B- (2.79)
Strahl, Perry Robert MATH 20B - Calculus/Science & Engineering (A) FA17106 93 75.0% 53.3% 6.93 B- (2.72) C+ (2.43)
Carter, Anne Toulson MATH 20B - Calculus/Science & Engineering (B) FA17283 174 89.8% 93.9% 6.29 B+ (3.34) B (3.10)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (C) FA17277 129 85.2% 91.7% 6.97 B- (2.92) C+ (2.32)
Quarfoot, David James MATH 20B - Calculus/Science & Engineering (E) FA17290 134 88.6% 88.6% 7.86 B (3.23) C+ (2.66)
Ben-Ezra, David El-Chai MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA17151 84 83.3% 48.1% 5.24 B+ (3.40) B+ (3.44)
Allen, Grant Warren MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA17304 142 82.6% 76.3% 6.69 B+ (3.45) B+ (3.51)
Buskin, Nikolay MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA17147 97 68.8% 37.2% 6.13 B (3.23) B (3.19)
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA17377 179 90.0% 88.0% 6.28 B+ (3.31) B- (2.93)
Petkov, Vladislav V MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA17209 123 77.6% 45.6% 6.55 B (3.22) B (3.27)
Bach, Quang Tran MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) FA17155 97 98.9% 98.9% 6.69 A- (3.74) B (3.22)
Dewey, Edward Harold MATH 20D - Intro/Differential Equations (A) FA1778 27 70.8% 79.2% 7.19 B (3.24) C+ (2.68)
Bowers, Adam R. MATH 20D - Intro/Differential Equations (B) FA17304 115 92.7% 96.4% 6.08 B+ (3.44) B- (2.75)
Snellman Jr., Robert Allen MATH 20D - Intro/Differential Equations (C) FA17196 87 93.8% 97.5% 6.18 B+ (3.65) B+ (3.55)
Huynh, Thang L MATH 20D - Intro/Differential Equations (D) FA17189 51 90.2% 90.2% 6.74 B (3.28) B- (2.96)
Preskitt, Brian Patrick MATH 20E - Vector Calculus (A) FA17287 124 87.7% 93.9% 7.57 B+ (3.54) B- (2.86)
Roberts, Justin Deritter MATH 20E - Vector Calculus (B) FA17214 88 77.1% 91.4% 7.45 B+ (3.31) B (3.21)
Petkov, Vladislav V MATH 20E - Vector Calculus (C) FA17166 77 79.7% 58.1% 6.09 B+ (3.43) B+ (3.42)
Rogalski, Daniel MATH 31AH - Honors Linear Algebra (A) FA1756 37 81.8% 97.0% 12.56 B+ (3.47) B+ (3.42)
Lacini, Justin MATH 3C - Precalculus (A) FA17152 88 41.7% 38.8% 6.38 C (2.28) C (2.29)
Qiu, Dun MATH 3C - Precalculus (B) FA17148 87 63.9% 48.2% 6.50 C+ (2.57) C+ (2.52)
Brivio, Iacopo MATH 4C - Pre-calculus for Sci & Engn (A) FA17132 76 56.3% 51.4% 5.32 B- (2.88) B- (2.85)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA1714 9 88.9% 100.0% 0.50 N/A N/A
Wulbert, Daniel E. MATH 87 - Freshman Seminar (B) FA1716 10 77.8% 77.8% 0.50 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (C) FA1711 6 100.0% 100.0% 0.50 A (4.00) N/A
Kane, Daniel Mertz MATH 96 - Putnam Seminar (A) FA1720 5 100.0% 100.0% 3.00 N/A N/A
Thamrongpairoj, Sittipong MATH 3C - Precalculus (A) S31712 5 100.0% 100.0% 3.70 B+ (3.40) N/A
Salehi Golsefidy, Alireza MATH 103B - Modern Algebra II (A) S21751 11 90.0% 100.0% 10.50 B- (2.90) N/A
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S217102 25 91.7% 82.6% 7.75 B+ (3.36) B (3.19)
Bowers, Adam R. MATH 109 - Mathematical Reasoning (B) S21717 10 60.0% 80.0% 13.50 B (3.20) N/A
Romero, Marino MATH 10A - Calculus I (A) S21736 24 82.6% 82.6% 7.11 B- (2.78) N/A
Rotar, Vladimir MATH 10B - Calculus II (A) S21766 52 94.2% 82.7% 7.54 B (3.27) B- (2.93)
Silva, Elwadura Prabath S MATH 10C - Calculus III (A) S21783 22 45.5% 18.2% 9.50 C+ (2.62) N/A
Behzadan, Ali MATH 120A - Elements of Complex Analysis (A) S21780 30 100.0% 100.0% 9.17 A- (3.82) B (3.27)
Chow, Bennett MATH 142B - Introduction to Analysis II (A) S21783 20 86.7% 73.3% 9.57 B+ (3.33) B- (2.90)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21736 10 100.0% 100.0% 11.10 B+ (3.56) B (3.10)
Drimbe, Daniel MATH 18 - Linear Algebra (A) S217136 42 71.1% 54.1% 9.18 B+ (3.37) N/A
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21768 48 89.6% 79.2% 7.73 B+ (3.60) B+ (3.33)
Barrese, Kenneth William MATH 2 - Intro to College Mathematics (A) S21717 12 90.9% 80.0% 5.05 C+ (2.36) N/A
Jones, Miles E MATH 20A - Calculus/Science & Engineering (A) S21738 25 96.0% 100.0% 6.26 B+ (3.64) A- (3.84)
Briones, Jor-el Thomas Caparas MATH 20B - Calculus/Science & Engineering (A) S21733 29 89.7% 89.7% 8.98 B- (2.93) N/A
Um, Ko Woon MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S217129 47 90.9% 88.6% 9.68 B+ (3.45) N/A
Jiang, Zonglin MATH 20D - Intro/Differential Equations (A) S21786 19 94.4% 83.3% 8.72 B (3.28) N/A
Tang, Xiudi MATH 20E - Vector Calculus (A) S217149 65 50.0% 23.4% 11.44 B (3.11) N/A
Eggers, John Dietrich MATH 20E - Vector Calculus (B) S21717 8 100.0% 100.0% 13.50 B+ (3.50) N/A
Rideout, David Porter MATH 3C - Precalculus (A) S21733 23 81.0% 76.2% 6.31 B- (2.81) N/A
Dilts, James Paul MATH 3C - Precalculus (B) S21731 18 88.9% 94.4% 11.06 B- (2.83) N/A
Udomprapasup, Thada MATH 4C - Pre-calculus for Sci & Engn (A) S21718 9 88.9% 66.7% 5.61 B- (2.75) N/A
Harel, Guershon MATH 102 - Applied Linear Algebra (A) S11785 28 88.9% 92.6% 10.88 B+ (3.58) B- (2.75)
Rideout, David Porter MATH 103A - Modern Algebra I (A) S117133 38 42.4% 24.2% 10.61 B (3.08) C+ (2.43)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S117138 31 89.7% 89.3% 8.03 B+ (3.55) C+ (2.67)
Quarfoot, David James MATH 10A - Calculus I (A) S11776 19 73.7% 89.5% 8.82 B (3.00) C- (1.84)
Rotar, Vladimir MATH 10B - Calculus II (A) S11764 49 79.6% 71.4% 6.58 B- (2.83) B- (2.90)
Behzadan, Ali MATH 110A - Intro/Partial Differ Equations (A) S11789 53 96.2% 100.0% 7.29 A- (3.74) B+ (3.56)
Chow, Bennett MATH 142A - Introduction to Analysis I (A) S117159 40 58.3% 57.1% 8.44 B- (2.97) C+ (2.40)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S11739 10 88.9% 88.9% 11.17 B+ (3.44) C+ (2.63)
Dilts, James Paul MATH 170A - Intro Numerical Analys/Linear (A) S11769 19 88.9% 88.9% 10.71 B+ (3.56) B- (2.88)
Harel, Guershon MATH 18 - Linear Algebra (A) S117127 30 84.0% 88.5% 9.50 B+ (3.36) C+ (2.37)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S117128 98 90.7% 84.5% 7.97 B+ (3.57) B+ (3.44)
Quarfoot, David James MATH 20A - Calculus/Science & Engineering (A) S11722 9 100.0% 100.0% 8.28 B+ (3.33) C (2.16)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (A) S11738 12 83.3% 83.3% 11.67 B- (2.92) C+ (2.31)
Briones, Jor-el Thomas Caparas MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S117114 94 86.2% 88.3% 7.95 B (3.04) B- (2.73)
Su, Fangyao MATH 20D - Intro/Differential Equations (A) S117128 29 88.5% 88.5% 7.76 A- (3.74) B (3.02)
Rhoades, Brendon Patrick MATH 100C - Abstract Algebra III (A) SP1721 19 94.7% 100.0% 8.92 B (3.21) B+ (3.43)
Carter, Anne Toulson MATH 103B - Modern Algebra II (A) SP17106 41 87.5% 97.5% 6.11 B (3.11) C+ (2.59)
Buskin, Nikolay MATH 104A - Number Theory I (A) SP1778 21 80.0% 75.0% 7.68 B (3.10) C+ (2.62)
Popescu, Cristian D. MATH 104C - Number Theory III (A) SP1712 7 100.0% 100.0% 7.64 B+ (3.67) N/A
McKernan, James MATH 109 - Mathematical Reasoning (A) SP17111 54 84.3% 70.6% 7.46 B (3.21) B- (2.95)
Mohammadi, Amir MATH 109 - Mathematical Reasoning (B) SP17119 34 87.9% 87.9% 7.41 B (3.24) C (2.25)
Saab, Rayan MATH 109 - Mathematical Reasoning (C) SP17115 72 84.5% 98.6% 7.92 B (3.20) C+ (2.35)
Um, Ko Woon MATH 10A - Calculus I (A) SP17189 73 80.9% 73.5% 6.83 B- (2.71) C+ (2.43)
Dilts, James Paul MATH 10B - Calculus II (A) SP17148 107 74.5% 68.9% 5.95 B- (2.90) C+ (2.44)
Conant, James R MATH 10B - Calculus II (B) SP17284 108 96.2% 94.2% 6.10 B (3.19) B- (2.83)
Curry, Sean N MATH 10C - Calculus III (A) SP1799 45 72.7% 68.2% 5.77 B (3.05) B- (2.71)
Stone, Corey Dean MATH 10C - Calculus III (B) SP17263 96 78.9% 85.6% 5.71 B (3.08) C+ (2.63)
Quarfoot, David James MATH 11 - Calculus-Based Prob & Stats (A) SP17190 82 89.6% 94.8% 6.39 B+ (3.39) B- (2.87)
Aghajani, Mohammadreza MATH 11 - Calculus-Based Prob & Stats (B) SP17177 80 78.9% 73.7% 7.21 B (3.25) B- (2.83)
Rabin, Jeffrey Mark MATH 120B - Applied Complex Analysis (A) SP1734 13 91.7% 91.7% 6.33 B (3.00) C+ (2.67)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1717 12 100.0% 100.0% 3.83 B+ (3.44) N/A
Oprea, Dragos N. MATH 140B - Foundations/Real Analysis II (A) SP1743 14 92.9% 92.9% 10.50 B+ (3.50) B (3.26)
Saab, Rayan MATH 140C - Foundations/Real Analysis III (A) SP1728 23 100.0% 90.9% 7.45 B+ (3.50) B- (2.92)
Bejenaru, Ioan MATH 142B - Introduction to Analysis II (A) SP17141 43 74.4% 87.2% 7.42 B (3.24) C+ (2.59)
Izadi, Elham MATH 150B - Calculus on Manifolds (A) SP179 5 100.0% 80.0% 6.90 B+ (3.67) N/A
Tobin, Robin Joshua MATH 152 - Applicable Math and Computing (A) SP17180 59 98.2% 98.2% 6.87 B+ (3.43) B- (2.99)
Buss, Samuel R MATH 155B - Topics in Computer Graphics (A) SP1715 4 100.0% 100.0% 6.00 B- (2.75) N/A
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP17132 34 81.8% 97.0% 5.65 B (3.06) C+ (2.59)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) SP17141 50 78.7% 63.8% 8.82 B (3.09) C+ (2.48)
Leok, Melvin MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1755 20 75.0% 75.0% 7.30 B+ (3.30) B+ (3.43)
Gill, Philip E. MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1772 27 70.8% 70.8% 7.68 B (3.13) B- (2.92)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP1721 8 75.0% 87.5% 5.83 B (3.00) B+ (3.69)
Dewey, Edward Harold MATH 18 - Linear Algebra (A) SP17264 104 81.6% 75.5% 6.54 B (3.18) B- (2.90)
Sterbenz, Jacob MATH 18 - Linear Algebra (B) SP17201 62 85.2% 88.5% 6.26 B+ (3.41) B- (2.84)
Li, Bo MATH 18 - Linear Algebra (C) SP17303 94 95.5% 93.3% 5.42 B+ (3.63) B- (2.85)
Novak, Jonathan I MATH 18 - Linear Algebra (D) SP17200 70 86.8% 63.2% 5.94 B+ (3.35) B- (2.78)
Zheng, Tianyi MATH 180C - Intro/Stochastic Processes II (A) SP17140 44 88.6% 79.5% 7.88 B+ (3.38) B (3.03)
Xu, Ronghui MATH 181A - Intro/Math Statistics I (A) SP17136 53 93.9% 79.6% 6.94 B+ (3.37) B- (2.85)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) SP17110 41 89.7% 82.1% 7.34 B+ (3.49) B- (2.90)
Quarfoot, David James MATH 183 - Statistical Methods (A) SP17206 82 91.0% 92.3% 6.45 B (3.25) B- (2.77)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP17135 45 69.8% 53.5% 8.93 B (3.19) B (3.08)
Bucur, Alina Ioana MATH 187B - Math of Modern Cryptography (A) SP1760 47 84.8% 84.8% 5.91 B+ (3.56) B (3.11)
Barrese, Kenneth William MATH 2 - Intro to College Mathematics (A) SP1712 3 66.7% 100.0% 4.50 B (3.00) N/A
Tucker, Henry Jackson MATH 20A - Calculus/Science & Engineering (A) SP1769 22 95.2% 23.8% 6.69 B (3.10) C+ (2.41)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (A) SP17193 79 80.3% 100.0% 6.45 C+ (2.68) C (2.25)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (B) SP17172 56 72.7% 67.3% 7.09 B- (2.83) C+ (2.43)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP17434 151 87.9% 96.5% 6.99 B (3.21) C+ (2.49)
Huynh, Thang L MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP17335 110 82.2% 84.1% 6.69 B (3.23) C+ (2.53)
Gawlik, Evan Scott MATH 20D - Intro/Differential Equations (A) SP17354 135 92.9% 96.9% 6.52 B+ (3.34) B- (2.76)
Oprea, Dragos N. MATH 20D - Intro/Differential Equations (B) SP17388 132 94.3% 95.1% 5.79 B+ (3.52) B- (2.84)
Conant, James R MATH 20E - Vector Calculus (A) SP17395 148 90.2% 95.8% 6.27 B+ (3.45) B+ (3.31)
Can, Mahir Bilen MATH 20E - Vector Calculus (B) SP17196 61 81.0% 51.7% 5.82 B (3.20) B- (2.85)
Rogalski, Daniel MATH 31CH - Honors Vector Calculus (A) SP1726 11 100.0% 100.0% 6.75 B (3.25) B+ (3.47)
Ciotti, Benjamin MATH 3C - Precalculus (A) SP17119 50 97.9% 97.9% 5.96 B (3.18) B- (2.91)
Wulbert, Daniel E. MATH 87 - Freshman Seminar (A) SP1711 7 100.0% 100.0% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1738 18 100.0% 100.0% 1.06 A- (3.94) A- (3.94)
McKernan, James MATH 100B - Abstract Algebra II (A) WI1771 24 85.7% 81.0% 8.02 B+ (3.40) C+ (2.68)
Li, Bo MATH 102 - Applied Linear Algebra (A) WI17229 62 91.2% 86.0% 6.38 B+ (3.46) B- (2.88)
Pelayo, Alvaro MATH 103A - Modern Algebra I (A) WI1764 40 94.6% 97.3% 6.44 B- (2.97) B- (2.76)
Zelmanov, Efim I MATH 103B - Modern Algebra II (A) WI17107 40 84.2% 76.3% 5.45 B (3.00) B (3.05)
Popescu, Cristian D. MATH 104B - Number Theory II (A) WI1717 10 100.0% 100.0% 9.83 B (3.29) N/A
Popescu, Cristian D. MATH 109 - Mathematical Reasoning (A) WI17102 44 68.3% 92.7% 8.14 B- (2.74) B- (2.74)
Mohammadi, Amir MATH 109 - Mathematical Reasoning (B) WI17121 39 86.8% 92.1% 7.74 B (3.11) C+ (2.44)
Buskin, Nikolay MATH 109 - Mathematical Reasoning (C) WI17114 41 83.8% 67.6% 6.50 B+ (3.49) C+ (2.45)
Quarfoot, David James MATH 10A - Calculus I (A) WI17227 98 94.6% 96.8% 6.30 B- (2.90) C+ (2.55)
Dilts, James Paul MATH 10A - Calculus I (B) WI17185 139 88.3% 76.6% 5.62 B- (2.92) C+ (2.67)
Eggers, John Dietrich MATH 10B - Calculus II (A) WI17389 169 79.2% 73.4% 6.21 B (3.06) C+ (2.62)
Longo, Brian Mitchell MATH 10B - Calculus II (B) WI17309 140 83.6% 94.8% 6.29 B (3.10) C+ (2.59)
Carter, Anne Toulson MATH 10C - Calculus III (A) WI17261 125 90.1% 98.3% 5.95 B (3.26) B (3.03)
Stone, Corey Dean MATH 10C - Calculus III (B) WI17177 73 88.6% 97.1% 5.60 B+ (3.54) C+ (2.60)
Conant, James R MATH 11 - Calculus-Based Prob & Stats (A) WI17189 102 85.4% 82.3% 6.16 B (3.30) B (3.15)
Schweinsberg, Jason MATH 11 - Calculus-Based Prob & Stats (B) WI17202 109 85.2% 91.7% 7.80 B+ (3.43) B- (2.93)
Li, Bo MATH 110B - Partial Diff Equa&Integral Equ (A) WI1718 8 100.0% 100.0% 7.25 A- (3.75) N/A
Izadi, Elham MATH 120A - Elements of Complex Analysis (A) WI1767 20 100.0% 88.2% 6.63 B (3.06) B- (2.81)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1730 18 93.8% 93.8% 4.50 B+ (3.40) B- (2.75)
Wenzl, Hans G MATH 130B - Ordinary Differntl Equation II (A) WI177 3 50.0% 100.0% 6.50 A (4.00) N/A
Mohammadi, Amir MATH 140A - Foundations of Real Analysis I (A) WI1752 16 85.7% 100.0% 11.21 B+ (3.46) C+ (2.43)
Chow, Bennett MATH 140B - Foundations/Real Analysis II (B) WI1741 17 93.3% 100.0% 8.90 B+ (3.33) B- (2.87)
Bejenaru, Ioan MATH 142A - Introduction to Analysis I (A) WI17144 55 84.6% 92.3% 8.06 B (3.22) C+ (2.56)
Zlatos, Andrej MATH 142B - Introduction to Analysis II (A) WI1741 13 50.0% 83.3% 7.90 C (2.27) C (2.15)
Curry, Sean N MATH 142B - Introduction to Analysis II (B) WI1797 44 71.4% 81.0% 9.29 B (3.02) B (3.25)
Kedlaya, Kiran S. MATH 152 - Applicable Math and Computing (A) WI17138 62 87.9% 89.7% 6.32 B+ (3.57) B+ (3.36)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) WI1724 11 100.0% 81.8% 8.70 B (3.27) B (3.06)
Rhoades, Brendon Patrick MATH 154 - Discrete Math & Graph Theory (A) WI1781 57 84.2% 89.5% 8.06 B- (2.91) B (3.03)
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI1755 21 95.2% 95.2% 8.79 B+ (3.43) B (3.29)
Um, Ko Woon MATH 15A - Intro/Discrete Mathematics (A) WI1772 33 90.0% 66.7% 4.36 A- (3.75) B (3.15)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) WI17142 38 71.4% 74.3% 7.81 B (3.03) C+ (2.50)
Deotte, Christopher George MATH 170B - Intro/Numerical Analy/Approxim (A) WI17145 59 98.1% 100.0% 6.76 A- (3.87) B+ (3.48)
Gill, Philip E. MATH 171A - Intro Num Optimiz/Linear Prog (A) WI17129 51 85.1% 76.6% 6.27 B+ (3.47) B- (2.72)
Bank, Randolph E MATH 175 - Numerical Methods for PDE (A) WI178 4 25.0% 75.0% 6.00 C (2.00) N/A
Ying, Jiangang MATH 18 - Linear Algebra (A) WI17141 59 87.5% 32.1% 5.43 B+ (3.35) C+ (2.62)
Eggers, John Dietrich MATH 18 - Linear Algebra (B) WI17281 114 89.4% 75.0% 6.98 B (3.29) C+ (2.70)
Kemp, Todd Aahron MATH 18 - Linear Algebra (C) WI17315 127 94.1% 99.2% 6.59 B+ (3.51) B (3.04)
Xin, Guoce MATH 18 - Linear Algebra (D) WI17203 79 79.4% 51.5% 6.38 B+ (3.47) C+ (2.65)
Zheng, Tianyi MATH 180A - Introduction to Probability (A) WI17197 74 73.4% 40.6% 7.50 B- (2.97) B (3.05)
Meyer, David A. MATH 180B - Intro/Stochastic Processes I (A) WI17169 58 80.4% 62.5% 8.08 B (3.26) B (3.25)
Politis, Dimitris MATH 181A - Intro/Math Statistics I (A) WI17103 32 90.3% 48.4% 6.89 B+ (3.58) B (3.10)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (A) WI1737 9 62.5% 75.0% 10.25 A- (3.88) B+ (3.56)
Quarfoot, David James MATH 183 - Statistical Methods (A) WI17200 80 93.5% 92.2% 7.51 B+ (3.45) C+ (2.68)
Tesler, Glenn MATH 184A - Combinatorics (A) WI17129 48 73.9% 69.6% 8.59 B- (2.89) B- (2.70)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1791 32 86.2% 82.8% 5.14 B+ (3.33) B- (2.73)
Bucur, Alina Ioana MATH 187 - Introduction to Cryptography (A) WI17203 166 93.3% 86.1% 4.55 A- (3.74) B+ (3.57)
Bradic, Jelena MATH 189 - Data Analysis and Inference (A) WI17118 41 87.5% 72.5% 7.96 B+ (3.56) B (3.03)
Pelayo, Alvaro MATH 190 - Introduction to Topology (A) WI1719 13 100.0% 91.7% 6.50 B+ (3.45) N/A
Aghajani, Mohammadreza MATH 194 - The Mathematics of Finance (A) WI17116 49 93.3% 71.1% 7.38 A- (3.84) B- (2.95)
Barrese, Kenneth William MATH 2 - Intro to College Mathematics (A) WI1723 8 83.3% 83.3% 7.50 C+ (2.33) C+ (2.49)
Stevens, Laura Jeanne MATH 20A - Calculus/Science & Engineering (A) WI17150 85 97.5% 100.0% 5.48 B (3.30) C+ (2.51)
Um, Ko Woon MATH 20A - Calculus/Science & Engineering (B) WI17110 49 70.5% 65.9% 6.45 B- (2.84) C+ (2.36)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (A) WI17369 160 70.8% 94.2% 7.75 B- (2.76) C (2.21)
Huynh, Thang L MATH 20B - Calculus/Science & Engineering (B) WI17145 63 74.1% 74.1% 6.75 B- (2.88) B- (2.79)
Dewey, Edward Harold MATH 20B - Calculus/Science & Engineering (C) WI17202 85 80.0% 70.0% 7.21 B (3.05) C+ (2.69)
Barrese, Kenneth William MATH 20B - Calculus/Science & Engineering (D) WI17131 51 78.3% 63.0% 7.61 B- (2.96) C+ (2.32)
Longo, Brian Mitchell MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI17154 80 94.7% 100.0% 5.82 B+ (3.32) B- (2.77)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI17414 190 89.8% 91.5% 6.85 B (3.25) B- (2.76)
Gawlik, Evan Scott MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI17391 203 93.5% 97.0% 6.12 B+ (3.34) B- (2.76)
Ying, Jiangang MATH 20D - Intro/Differential Equations (A) WI17184 73 90.0% 55.7% 6.50 B (3.29) B- (2.86)
Conant, James R MATH 20D - Intro/Differential Equations (B) WI17382 175 90.6% 94.2% 6.40 B+ (3.49) B (3.10)
Stone, Corey Dean MATH 20D - Intro/Differential Equations (C) WI17293 119 88.8% 94.8% 6.55 B+ (3.36) C+ (2.67)
Behzadan, Ali MATH 20E - Vector Calculus (A) WI17237 112 94.3% 99.0% 6.56 A- (3.77) B+ (3.59)
Roberts, Justin Deritter MATH 20E - Vector Calculus (B) WI17217 76 78.9% 83.1% 6.91 B (3.24) C+ (2.66)
Tucker, Henry Jackson MATH 20E - Vector Calculus (C) WI17154 69 67.2% 14.9% 7.49 B- (2.81) C+ (2.60)
Sorensen, Claus M MATH 31BH - Honors Multivariable Calculus (A) WI1733 27 88.9% 74.1% 7.96 B (3.20) B+ (3.51)
Zou, Nan MATH 3C - Precalculus (A) WI17153 69 87.9% 65.2% 6.06 B (3.17) B- (2.77)
Preskitt, Brian Patrick MATH 4C - Pre-calculus for Sci & Engn (A) WI1738 14 91.7% 83.3% 6.67 B (3.00) C+ (2.67)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1717 11 100.0% 100.0% 0.70 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) WI1717 13 84.6% 92.3% 0.81 A (4.00) N/A
Wulbert, Daniel E. MATH 87 - Freshman Seminar (C) WI175 3 100.0% 100.0% 0.50 N/A N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1712 6 83.3% 83.3% 5.17 B+ (3.40) N/A
McKernan, James MATH 100A - Abstract Algebra I (A) FA1698 39 83.8% 86.5% 8.50 B (3.29) B- (2.97)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) FA16177 58 88.9% 79.6% 7.39 B (3.14) C (2.16)
Pelayo, Alvaro MATH 103A - Modern Algebra I (A) FA1668 33 93.5% 100.0% 6.78 B- (2.97) B- (2.77)
Carter, Anne Toulson MATH 103A - Modern Algebra I (B) FA1669 34 90.6% 96.9% 7.02 B+ (3.63) B (3.15)
Sorensen, Claus M MATH 103A - Modern Algebra I (C) FA1644 37 83.8% 81.1% 8.21 B (3.11) B (3.06)
Rabin, Jeffrey Mark MATH 104A - Number Theory I (A) FA1634 19 84.2% 89.5% 8.08 B- (2.94) B (3.11)
Salehi Golsefidy, Alireza MATH 109 - Mathematical Reasoning (A) FA16138 65 83.6% 86.9% 7.81 B (3.17) C+ (2.69)
Rogalski, Daniel MATH 109 - Mathematical Reasoning (B) FA16102 47 93.2% 97.7% 8.65 B (3.18) B- (2.83)
Chow, Bennett MATH 109 - Mathematical Reasoning (C) FA1698 33 83.3% 66.7% 7.60 B (3.27) B- (2.96)
Conant, James R MATH 109 - Mathematical Reasoning (D) FA16105 55 82.6% 95.7% 5.91 B+ (3.33) B- (2.77)
Longo, Brian Mitchell MATH 10A - Calculus I (A) FA16212 114 88.6% 95.2% 5.96 B- (2.99) C+ (2.60)
Eggers, John Dietrich MATH 10A - Calculus I (B) FA16213 100 82.4% 61.5% 5.83 B- (2.94) C+ (2.42)
Aghajani, Mohammadreza MATH 10A - Calculus I (C) FA16195 89 87.5% 50.0% 5.87 B (3.06) C+ (2.50)
Curry, Sean N MATH 10B - Calculus II (A) FA16264 135 77.6% 72.8% 6.07 B (3.16) B- (2.79)
Stone, Corey Dean MATH 10B - Calculus II (B) FA16220 118 74.5% 71.7% 6.66 B- (2.85) B- (2.77)
Xin, Guoce MATH 10C - Calculus III (A) FA16193 87 69.6% 30.4% 7.12 B- (2.96) B- (2.82)
Jolany, Hassan MATH 10C - Calculus III (B) FA16220 115 88.9% 88.0% 5.85 A- (3.82) B+ (3.65)
Quarfoot, David James MATH 11 - Calculus-Based Prob & Stats (A) FA16179 87 98.8% 95.3% 7.08 B+ (3.61) B (3.29)
Schweinsberg, Jason MATH 11 - Calculus-Based Prob & Stats (B) FA16197 116 83.9% 95.5% 7.27 B+ (3.40) B- (2.94)
Li, Bo MATH 110A - Intro/Partial Differ Equations (A) FA1682 38 62.2% 67.6% 7.01 B (3.00) B- (2.79)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1634 17 100.0% 100.0% 5.64 B+ (3.60) A- (3.88)
Rabin, Jeffrey Mark MATH 120A - Elements of Complex Analysis (A) FA1670 21 73.7% 73.7% 6.50 B (3.22) C+ (2.45)
Wenzl, Hans G MATH 130A - Ordinary Differntl Equation I (A) FA1696 26 83.3% 70.8% 6.50 B+ (3.67) B (3.03)
Chow, Bennett MATH 140A - Foundations of Real Analysis I (A) FA1661 28 85.2% 88.9% 11.50 B (3.12) B- (2.82)
Sterbenz, Jacob MATH 140A - Foundations of Real Analysis I (B) FA1615 8 100.0% 57.1% 13.64 C (2.14) N/A
Ioana, Adrian MATH 142A - Introduction to Analysis I (A) FA1672 27 76.0% 96.0% 7.20 B- (2.92) C+ (2.33)
Zlatos, Andrej MATH 142A - Introduction to Analysis I (B) FA1648 21 44.4% 27.8% 8.97 B (3.24) B- (2.78)
Curry, Sean N MATH 142A - Introduction to Analysis I (C) FA1664 30 65.5% 82.8% 8.35 B (3.18) C (2.19)
Izadi, Elham MATH 150A - Differential Geometry (A) FA1623 11 81.8% 100.0% 8.14 B (3.18) B- (2.98)
Gawlik, Evan Scott MATH 170A - Intro Numerical Analys/Linear (A) FA16202 71 82.9% 98.6% 7.36 B+ (3.57) B- (2.89)
Huynh, Thang L MATH 170A - Intro Numerical Analys/Linear (B) FA1667 20 100.0% 81.3% 5.63 B+ (3.56) B+ (3.65)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA1648 17 94.1% 94.1% 7.83 B (3.25) C+ (2.44)
Dilts, James Paul MATH 18 - Linear Algebra (A) FA16208 173 85.3% 83.5% 7.19 B (3.08) B- (2.94)
Drimbe, Daniel MATH 18 - Linear Algebra (B) FA16179 91 73.8% 33.8% 6.78 B (3.04) C+ (2.62)
Buskin, Nikolay MATH 18 - Linear Algebra (C) FA16285 152 90.3% 36.8% 5.69 B+ (3.54) B (3.08)
Harel, Guershon MATH 18 - Linear Algebra (D) FA16201 94 86.4% 60.2% 7.15 B (3.28) C+ (2.49)
Schweinsberg, Jason MATH 180A - Introduction to Probability (A) FA16305 142 96.3% 97.0% 8.44 B+ (3.43) B (3.05)
Aghajani, Mohammadreza MATH 180A - Introduction to Probability (B) FA16163 62 86.4% 66.1% 7.44 B+ (3.35) B- (2.72)
Xu, Ronghui MATH 181B - Intro/Math Statistics II (A) FA1665 20 84.2% 78.9% 7.72 B+ (3.50) B- (2.92)
Kane, Daniel Mertz MATH 184A - Combinatorics (A) FA16178 66 77.4% 80.6% 9.80 B (3.12) B (3.12)
Bach, Quang Tran MATH 2 - Intro to College Mathematics (A) FA1632 17 93.8% 100.0% 5.88 C+ (2.56) N/A
Bach, Quang Tran MATH 2 - Intro to College Mathematics (B) FA1610 5 100.0% 100.0% 4.10 B (3.00) N/A
Dewey, Edward Harold MATH 20A - Calculus/Science & Engineering (A) FA16262 137 93.9% 85.6% 6.12 B+ (3.50) B- (2.87)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (B) FA16191 89 96.5% 97.6% 6.70 B (3.23) C+ (2.38)
Quarfoot, David James MATH 20A - Calculus/Science & Engineering (C) FA16214 121 99.1% 97.4% 5.75 B+ (3.49) C+ (2.50)
Um, Ko Woon MATH 20A - Calculus/Science & Engineering (D) FA16198 94 94.3% 67.0% 5.55 B+ (3.49) C+ (2.51)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) FA16317 165 71.6% 53.5% 7.49 B- (2.71) C+ (2.56)
Um, Ko Woon MATH 20B - Calculus/Science & Engineering (B) FA16188 110 88.2% 68.6% 7.21 B+ (3.37) C+ (2.40)
Deotte, Christopher George MATH 20B - Calculus/Science & Engineering (C) FA16211 111 97.1% 96.2% 5.41 B+ (3.48) B (3.19)
Buskin, Nikolay MATH 20B - Calculus/Science & Engineering (D) FA16272 155 75.5% 14.6% 7.17 B (3.13) B- (2.75)
Jolany, Hassan MATH 20B - Calculus/Science & Engineering (E) FA16103 58 92.3% 69.2% 5.46 B+ (3.62) C+ (2.66)
Tucker, Henry Jackson MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA16182 125 66.9% 8.5% 8.34 B- (2.89) B- (2.80)
Salehi Golsefidy, Alireza MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA16336 253 90.9% 94.2% 7.14 B+ (3.45) B- (2.77)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA16330 161 89.9% 65.5% 6.71 B (3.24) B- (2.73)
Conant, James R MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA16376 207 95.4% 97.0% 5.33 A- (3.71) B (3.24)
Barrese, Kenneth William MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA16281 132 88.7% 61.3% 6.58 B (3.20) B- (2.71)
Bowers, Adam R. MATH 20D - Intro/Differential Equations (A) FA16316 151 95.7% 99.3% 6.54 B+ (3.42) B- (2.81)
Bejenaru, Ioan MATH 20D - Intro/Differential Equations (B) FA16190 89 90.6% 87.1% 6.67 B+ (3.39) B- (2.73)
Barrese, Kenneth William MATH 20D - Intro/Differential Equations (C) FA16181 59 78.2% 65.5% 7.13 B (3.15) C+ (2.63)
Stone, Corey Dean MATH 20D - Intro/Differential Equations (D) FA16243 92 91.0% 75.3% 7.63 B (3.26) B- (2.71)
Huynh, Thang L MATH 20E - Vector Calculus (A) FA16341 171 87.4% 79.2% 7.24 B+ (3.48) B (3.15)
Saab, Rayan MATH 20E - Vector Calculus (B) FA16271 184 79.7% 90.4% 7.37 B (3.27) B- (2.78)
Ioana, Adrian MATH 31AH - Honors Linear Algebra (A) FA1667 38 83.8% 91.9% 7.61 B+ (3.56) C+ (2.67)
Longo, Brian Mitchell MATH 3C - Precalculus (A) FA16124 66 83.3% 93.3% 6.36 B- (2.89) C- (1.99)
Schmitt, Jeremy M MATH 3C - Precalculus (B) FA16117 53 79.2% 87.5% 6.29 B- (2.87) C- (1.90)
Sangha, Luvreet Singh MATH 4C - Pre-calculus for Sci & Engn (A) FA16100 80 85.9% 91.0% 7.82 B (3.04) C+ (2.44)
Harel, Guershon MATH 87 - Freshman Seminar (A) FA1614 8 100.0% 100.0% 0.83 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (B) FA1616 13 100.0% 100.0% 1.27 A (4.00) N/A
Kane, Daniel Mertz MATH 96 - Putnam Seminar (0) FA169 5 80.0% 80.0% 8.00 N/A N/A
Jiang, Zonglin MATH 102 - Applied Linear Algebra (A) S216101 30 80.0% 80.0% 9.50 B+ (3.43) C+ (2.53)
Sangha, Luvreet Singh MATH 102 - Applied Linear Algebra (A) S216130 25 84.2% 63.2% 9.17 B+ (3.50) N/A
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S21683 17 100.0% 85.7% 8.19 B+ (3.50) B- (2.74)
Eggers, John Dietrich MATH 109 - Mathematical Reasoning (B) S21622 12 80.0% 50.0% 8.94 B (3.00) B (3.01)
Barrese, Kenneth William MATH 10A - Calculus I (A) S21629 15 100.0% 100.0% 7.36 B (3.00) B- (2.92)
Rotar, Vladimir MATH 10B - Calculus II (A) S21638 26 88.5% 92.3% 7.50 B (3.08) B (3.01)
Smith, Daniel Edward MATH 10C - Calculus III (A) S21683 79 88.6% 89.9% 6.86 B (3.25) B (3.03)
Snellman Jr., Robert Allen MATH 120A - Elements of Complex Analysis (A) S21647 14 100.0% 92.3% 8.81 B+ (3.31) C+ (2.55)
Sun, Hui MATH 142B - Introduction to Analysis II (A) S21649 13 76.9% 92.3% 10.65 B (3.00) B- (2.78)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21643 16 93.3% 93.3% 10.90 B (3.27) B (3.06)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21642 30 100.0% 96.6% 10.43 B+ (3.69) B+ (3.50)
Bach, Quang Tran MATH 20A - Calculus/Science & Engineering (A) S21627 18 94.4% 83.3% 7.39 B+ (3.33) B (3.29)
Chow, Bennett MATH 20B - Calculus/Science & Engineering (A) S21662 25 87.5% 45.8% 10.59 B+ (3.38) B- (2.85)
Bodnar, Michelle Elizabeth MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S216121 47 93.5% 89.1% 8.54 B (3.24) C+ (2.33)
Li, Xiaolong MATH 20D - Intro/Differential Equations (A) S216123 66 93.9% 95.5% 7.58 A- (3.78) B+ (3.47)
Preskitt, Brian Patrick MATH 20E - Vector Calculus (A) S21694 31 78.6% 85.7% 10.14 B+ (3.46) B- (2.84)
Eggers, John Dietrich MATH 20E - Vector Calculus (B) S21622 9 87.5% 100.0% 10.75 B- (2.75) B (3.16)
Harel, Guershon MATH 20F - Linear Algebra (A) S216131 35 94.1% 79.4% 9.35 B+ (3.41) C+ (2.48)
Kim, Yeon Kyung MATH 3C - Precalculus (A) S21615 3 100.0% 100.0% 3.17 B+ (3.33) N/A
Sangha, Luvreet Singh MATH 3C - Precalculus (B) S21628 13 91.7% 83.3% 12.67 C+ (2.55) C+ (2.31)
Harel, Guershon MATH 4C - Pre-calculus for Sci & Engn (A) S21617 11 90.0% 70.0% 9.50 B (3.18) N/A
Popescu, Cristian D. MATH 104A - Number Theory I (A) S11626 7 71.4% 85.7% 9.93 B (3.29) B (3.23)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S116133 34 93.5% 74.2% 8.10 B+ (3.45) B (3.23)
Stevens, Laura Jeanne MATH 10A - Calculus I (A) S11648 24 91.7% 95.8% 8.08 B+ (3.30) C+ (2.55)
Rotar, Vladimir MATH 10B - Calculus II (A) S11654 39 84.6% 97.4% 8.88 B+ (3.31) B (3.27)
Oliver, Jesus R MATH 110A - Intro/Partial Differ Equations (A) S11686 17 81.3% 93.8% 7.93 B+ (3.50) B- (2.92)
Oliver, Jesus R MATH 142A - Introduction to Analysis I (A) S116125 31 86.2% 96.6% 8.17 A- (3.70) B (3.00)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S11640 11 90.9% 100.0% 7.05 B+ (3.56) B (3.21)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11675 54 92.5% 81.1% 9.44 B+ (3.55) B+ (3.38)
Chow, Bennett MATH 20A - Calculus/Science & Engineering (A) S11628 9 100.0% 100.0% 8.21 A- (3.71) B+ (3.43)
Rideout, David Porter MATH 20B - Calculus/Science & Engineering (A) S11653 37 81.1% 78.4% 9.42 B (3.03) B- (2.84)
Bodnar, Michelle Elizabeth MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S11691 28 82.6% 95.7% 8.76 B+ (3.59) C+ (2.54)
Schmitt, Jeremy M MATH 20D - Intro/Differential Equations (A) S116134 39 82.4% 91.2% 7.69 A- (3.79) B- (2.93)
Sangha, Luvreet Singh MATH 20E - Vector Calculus (A) S116120 30 67.9% 89.3% 10.13 B (3.19) C+ (2.68)
Kim, Yeon Kyung MATH 20F - Linear Algebra (A) S116126 30 96.7% 90.0% 7.74 B+ (3.62) C+ (2.66)
Rogalski, Daniel MATH 100C - Abstract Algebra III (A) SP1621 10 100.0% 90.0% 7.70 A- (3.78) B+ (3.34)
McKernan, James MATH 103B - Modern Algebra II (A) SP1655 17 87.5% 93.8% 6.63 B+ (3.69) B (3.02)
Oprea, Dragos N. MATH 104A - Number Theory I (A) SP1657 20 85.0% 90.0% 8.71 B- (2.84) B- (2.94)
Salehi Golsefidy, Alireza MATH 104C - Number Theory III (A) SP164 4 100.0% 100.0% 4.00 A- (3.75) N/A
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) SP16113 41 90.2% 90.2% 5.95 B (3.21) C+ (2.68)
Agler, Jim MATH 109 - Mathematical Reasoning (B) SP1693 40 89.5% 86.8% 7.41 B+ (3.31) B (3.05)
Rhoades, Brendon Patrick MATH 109 - Mathematical Reasoning (C) SP16176 123 80.5% 89.4% 7.16 B (3.06) B- (2.86)
Kim, Yeon Kyung MATH 10A - Calculus I (A) SP16153 55 81.1% 67.9% 6.35 B- (2.82) C+ (2.38)
Mohanty, Sara MATH 10B - Calculus II (A) SP1683 26 92.0% 80.0% 6.02 B- (2.96) C+ (2.31)
Carter, Anne Toulson MATH 10B - Calculus II (B) SP16196 80 77.9% 90.9% 6.37 B (3.00) C+ (2.57)
Barrese, Kenneth William MATH 10C - Calculus III (A) SP16205 85 78.3% 67.5% 5.05 B- (2.91) B- (2.79)
Tiee, Christopher Landrick MATH 10C - Calculus III (B) SP16254 216 79.3% 70.0% 5.16 B (3.27) B+ (3.49)
Bowers, Adam R. MATH 11 - Calculus-Based Prob & Stats (A) SP16255 110 69.8% 88.7% 8.21 B (3.07) C+ (2.69)
Sterbenz, Jacob MATH 110B - Partial Diff Equa&Integral Equ (A) SP1612 4 100.0% 100.0% 7.50 A- (3.75) N/A
Agler, Jim MATH 120B - Applied Complex Analysis (A) SP1654 16 93.8% 75.0% 5.03 B (3.08) B+ (3.54)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1618 9 100.0% 100.0% 4.25 B+ (3.44) N/A
Kemp, Todd Aahron MATH 140B - Foundations/Real Analysis II (A) SP1624 15 93.3% 100.0% 8.64 B (3.25) B- (2.70)
Ioana, Adrian MATH 140C - Foundations/Real Analysis III (A) SP1631 13 100.0% 100.0% 8.04 B+ (3.58) B- (2.98)
Bejenaru, Ioan MATH 142B - Introduction to Analysis II (A) SP1683 30 89.7% 96.6% 6.71 B+ (3.52) C+ (2.59)
Leven, Emily Lynn MATH 152 - Applicable Math and Computing (A) SP16137 62 98.3% 94.9% 5.26 A- (3.86) B+ (3.52)
Novak, Jonathan I MATH 154 - Discrete Math & Graph Theory (A) SP16108 48 86.7% 93.3% 6.28 B+ (3.37) C+ (2.61)
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP16138 57 90.9% 100.0% 5.45 B+ (3.31) B- (2.85)
Nie, Jiawang MATH 170B - Intro/Numerical Analy/Approxim (A) SP1669 26 87.0% 87.0% 6.07 B+ (3.32) B- (2.90)
Leok, Melvin MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1621 14 92.9% 100.0% 7.58 B+ (3.58) B+ (3.69)
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1651 20 89.5% 94.7% 7.45 A- (3.82) B+ (3.40)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP1618 6 80.0% 80.0% 6.50 B+ (3.67) N/A
Fitzsimmons, Patrick J MATH 180C - Intro/Stochastic Processes II (A) SP16101 43 88.1% 92.9% 7.83 B (3.25) B- (2.96)
Haff, Leonard R. MATH 181A - Intro/Math Statistics I (A) SP16181 67 95.2% 92.1% 5.89 B+ (3.69) B- (2.95)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) SP1667 29 89.3% 82.1% 8.35 B+ (3.54) B (3.09)
Abramson, Ian S MATH 181C - Math Statistics-Nonparametric (A) SP1623 13 100.0% 83.3% 5.41 B+ (3.55) B+ (3.35)
Wang, Xu MATH 183 - Statistical Methods (A) SP16140 53 61.5% 28.8% 5.79 B (3.24) B- (2.93)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP16101 33 79.3% 72.4% 7.79 B (3.15) B (3.19)
Bucur, Alina Ioana MATH 187 - Introduction to Cryptography (A) SP16187 149 94.5% 86.3% 4.30 A- (3.74) B+ (3.54)
Roberts, Justin Deritter MATH 191 - Topics In Topology (A) SP1611 7 85.7% 100.0% 5.93 B+ (3.57) N/A
Rhoades, Brendon Patrick MATH 20A - Calculus/Science & Engineering (A) SP1697 61 93.1% 93.1% 5.57 B (3.19) B- (2.83)
Li, Bo MATH 20B - Calculus/Science & Engineering (A) SP16209 84 75.3% 58.4% 7.11 B- (2.72) C+ (2.63)
Tiee, Christopher Landrick MATH 20B - Calculus/Science & Engineering (B) SP1690 73 86.3% 84.9% 5.35 B+ (3.32) C+ (2.63)
Mohanty, Sara MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP16232 72 87.7% 52.3% 6.28 B+ (3.34) C+ (2.40)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP16380 142 82.4% 63.4% 6.48 B (3.24) C+ (2.52)
Deotte, Christopher George MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP16299 115 93.5% 94.4% 6.08 B+ (3.50) B- (2.76)
Eggers, John Dietrich MATH 20D - Intro/Differential Equations (A) SP16381 148 87.2% 86.5% 6.19 B+ (3.54) B- (2.95)
Dilts, James Paul MATH 20D - Intro/Differential Equations (B) SP16210 88 81.7% 78.0% 6.88 B+ (3.34) B- (2.78)
Barrese, Kenneth William MATH 20E - Vector Calculus (A) SP16135 49 74.4% 55.8% 5.45 B (3.14) C+ (2.51)
Sun, Hui MATH 20E - Vector Calculus (B) SP16410 136 90.0% 90.0% 4.84 B+ (3.67) B (3.13)
Behzadan, Ali MATH 20F - Linear Algebra (A) SP16315 131 93.0% 96.1% 5.89 A- (3.84) B (3.15)
Gawlik, Evan Scott MATH 20F - Linear Algebra (B) SP16200 76 91.4% 98.6% 6.20 B+ (3.43) C+ (2.69)
Wong, Elizabeth Lai Sum MATH 20F - Linear Algebra (C) SP16410 156 94.8% 99.3% 5.27 B+ (3.66) B (3.24)
Kim, Yeon Kyung MATH 20F - Linear Algebra (D) SP16113 26 95.5% 81.8% 5.80 B+ (3.48) C+ (2.35)
Saab, Rayan MATH 31CH - Honors Vector Calculus (A) SP1626 20 90.0% 100.0% 6.40 B (3.25) B+ (3.30)
Bunch, James R. MATH 87 - Freshman Seminar (A) SP1616 16 100.0% 100.0% 0.75 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1629 17 100.0% 100.0% 1.21 A- (3.94) A- (3.98)
McKernan, James MATH 100B - Abstract Algebra II (A) WI1636 19 100.0% 83.3% 8.50 B+ (3.39) B+ (3.47)
Dilts, James Paul MATH 102 - Applied Linear Algebra (A) WI16134 100 86.7% 82.7% 7.07 B (3.18) B (3.24)
Pelayo, Alvaro MATH 103A - Modern Algebra I (A) WI1662 29 85.2% 92.6% 7.02 B- (2.88) C+ (2.66)
Zelmanov, Efim I MATH 103B - Modern Algebra II (A) WI1667 31 75.9% 100.0% 5.88 B (3.14) C+ (2.35)
Zelmanov, Efim I MATH 104B - Number Theory II (A) WI1613 7 100.0% 85.7% 5.07 B (3.14) N/A
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) WI1697 39 94.7% 94.7% 6.33 B+ (3.44) C+ (2.54)
Oliver, Jesus R MATH 109 - Mathematical Reasoning (B) WI16154 71 94.1% 97.1% 6.81 B+ (3.67) B (3.02)
Stevens, Laura Jeanne MATH 10A - Calculus I (A) WI16181 106 97.1% 99.0% 5.88 B (3.15) C+ (2.34)
Carter, Anne Toulson MATH 10A - Calculus I (B) WI16163 83 96.3% 97.5% 5.13 B (3.20) C+ (2.40)
Eggers, John Dietrich MATH 10B - Calculus II (A) WI16340 174 78.3% 69.9% 6.24 B- (2.92) C+ (2.37)
Barrese, Kenneth William MATH 10B - Calculus II (B) WI16194 101 67.0% 72.2% 4.76 B (3.01) C+ (2.46)
Cheng, Hsiao-Bing MATH 10C - Calculus III (A) WI16109 54 78.8% 78.8% 5.64 B (3.12) B- (2.79)
Gawlik, Evan Scott MATH 10C - Calculus III (B) WI16351 176 86.7% 95.4% 5.58 B+ (3.36) B- (2.72)
Sterbenz, Jacob MATH 110A - Intro/Partial Differ Equations (A) WI1642 18 55.6% 44.4% 8.50 B (3.27) B- (2.82)
Agler, Jim MATH 120A - Elements of Complex Analysis (A) WI1672 20 100.0% 90.0% 7.03 B (3.22) B+ (3.40)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1639 31 100.0% 100.0% 5.97 B+ (3.39) C+ (2.46)
Ni, Lei MATH 130B - Ordinary Differntl Equation II (A) WI1610 8 100.0% 87.5% 5.75 B+ (3.63) N/A
Kemp, Todd Aahron MATH 140A - Foundations of Real Analysis I (A) WI1642 16 86.7% 100.0% 10.64 B (3.29) C+ (2.66)
Chow, Bennett MATH 140B - Foundations/Real Analysis II (A) WI1637 17 92.9% 71.4% 9.36 B (3.29) B (3.23)
Bejenaru, Ioan MATH 142A - Introduction to Analysis I (A) WI16100 44 75.6% 87.8% 8.21 B- (2.83) C+ (2.46)
Wenzl, Hans G MATH 142B - Introduction to Analysis II (A) WI16110 44 81.8% 75.0% 9.05 B (3.02) B- (2.82)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) WI1612 7 83.3% 83.3% 6.83 B (3.20) N/A
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI1655 30 86.7% 96.7% 9.31 B+ (3.48) B+ (3.42)
Jones, Miles E MATH 15A - Intro/Discrete Mathematics (A) WI16151 96 89.8% 92.0% 5.51 B+ (3.63) B+ (3.41)
Buss, Samuel R MATH 160A - Elementary Math Logic I (A) WI1615 5 100.0% 80.0% 8.10 B (3.25) N/A
Tiee, Christopher Landrick MATH 170A - Intro Numerical Analys/Linear (A) WI16187 150 82.3% 79.6% 6.76 B (3.28) B (3.30)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) WI1666 30 90.0% 86.7% 8.09 B (3.21) C+ (2.60)
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI16110 57 74.1% 75.9% 6.84 B+ (3.57) B (3.15)
Bank, Randolph E MATH 175 - Numerical Methods for PDE (A) WI167 5 40.0% 80.0% 11.50 B (3.00) N/A
Kemp, Todd Aahron MATH 180A - Introduction to Probability (A) WI16132 53 95.8% 85.4% 7.14 B (3.26) B- (2.79)
Meyer, David A. MATH 180B - Intro/Stochastic Processes I (A) WI16120 53 90.0% 80.0% 7.92 B (3.10) B- (2.98)
Politis, Dimitris MATH 181A - Intro/Math Statistics I (A) WI1691 36 91.4% 60.0% 7.38 B+ (3.47) B- (2.99)
Pelletier, Bruno MATH 183 - Statistical Methods (A) WI16236 100 81.4% 78.4% 5.95 B+ (3.47) C+ (2.63)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1681 31 72.4% 75.9% 6.83 B+ (3.32) C+ (2.66)
Bradic, Jelena MATH 189 - Data Analysis and Inference (A) WI1676 30 86.7% 80.0% 7.95 A- (3.80) B (3.02)
Rhoades, Brendon Patrick MATH 190 - Introduction to Topology (A) WI1617 15 100.0% 100.0% 7.17 B+ (3.38) N/A
Wang, Xu MATH 194 - The Mathematics of Finance (A) WI1667 26 53.8% 38.5% 6.98 B+ (3.46) B (3.01)
Wang, Xu MATH 20A - Calculus/Science & Engineering (A) WI1672 30 78.6% 14.3% 5.50 C+ (2.54) B- (2.93)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (B) WI16144 71 95.5% 95.5% 6.02 B+ (3.35) C+ (2.40)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (A) WI16318 174 86.7% 98.8% 7.37 B- (2.85) C+ (2.33)
Novak, Jonathan I MATH 20B - Calculus/Science & Engineering (B) WI16259 123 83.3% 70.2% 6.36 B (3.24) B (3.13)
Kim, Yeon Kyung MATH 20B - Calculus/Science & Engineering (C) WI16196 95 85.6% 80.0% 5.91 B (3.15) C+ (2.36)
Martirosyan, Lilit MATH 20B - Calculus/Science & Engineering (D) WI16167 80 82.7% 33.3% 6.47 B (3.08) C+ (2.63)
Mohanty, Sara MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI16161 90 85.4% 62.9% 6.16 B (3.06) C+ (2.32)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI16421 229 90.4% 90.8% 6.54 B (3.27) C+ (2.60)
Barrese, Kenneth William MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI16315 149 88.1% 76.2% 5.83 B+ (3.38) C+ (2.63)
Jiang, Zonglin MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI16239 125 78.7% 32.0% 6.10 B (3.28) B- (2.70)
Behzadan, Ali MATH 20D - Intro/Differential Equations (A) WI16292 190 98.9% 99.5% 5.54 A- (3.86) B (3.15)
Wong, Elizabeth Lai Sum MATH 20D - Intro/Differential Equations (B) WI16207 101 94.0% 96.0% 5.78 A- (3.71) B (3.21)
Oliver, Jesus R MATH 20D - Intro/Differential Equations (C) WI16262 127 94.3% 97.5% 6.35 B+ (3.64) B (3.07)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) WI16214 84 73.5% 77.1% 7.09 B+ (3.35) B (3.08)
Pelletier, Bruno MATH 20E - Vector Calculus (B) WI16194 80 83.1% 75.3% 6.34 B+ (3.43) B- (2.74)
Martirosyan, Lilit MATH 20E - Vector Calculus (C) WI1650 22 63.6% 27.3% 6.50 B- (2.80) B (3.07)
Merkurjev, Ekaterina MATH 20F - Linear Algebra (A) WI16328 187 84.3% 46.1% 6.28 B+ (3.37) B- (2.99)
Cheng, Hsiao-Bing MATH 20F - Linear Algebra (B) WI16186 100 86.2% 72.3% 6.81 B+ (3.39) B- (2.78)
Mohanty, Sara MATH 20F - Linear Algebra (C) WI16195 103 75.8% 42.4% 5.94 B (3.10) C (2.01)
Deotte, Christopher George MATH 20F - Linear Algebra (D) WI16337 173 95.8% 96.4% 5.83 B+ (3.65) B (3.07)
Chow, Bennett MATH 31BH - Honors Multivariable Calculus (A) WI1633 17 100.0% 75.0% 7.83 B+ (3.50) B+ (3.64)
Sangha, Luvreet Singh MATH 3C - Precalculus (A) WI16105 75 85.9% 90.1% 7.71 B- (2.80) C+ (2.43)
Stone, Corey Dean MATH 4C - Pre-calculus for Sci & Engn (A) WI1645 21 81.0% 85.7% 5.26 B- (2.79) C- (1.89)
Haff, Leonard R. MATH 87 - Freshman Seminar (A) WI1618 13 100.0% 100.0% 0.81 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) WI1617 10 100.0% 100.0% 0.50 N/A N/A
Rabin, Jeffrey Mark MATH 87 - Freshman Seminar (C) WI1613 7 83.3% 83.3% 2.10 N/A N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1614 11 90.9% 81.8% 5.95 B+ (3.30) N/A
Rogalski, Daniel MATH 100A - Abstract Algebra I (A) FA1561 33 93.8% 96.9% 8.38 B (3.22) B- (2.88)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) FA15137 56 94.3% 88.7% 8.50 B (3.18) B- (2.94)
Sorensen, Claus M MATH 103A - Modern Algebra I (A) FA15102 36 86.1% 66.7% 6.84 B (3.11) C+ (2.67)
Rabin, Jeffrey Mark MATH 104A - Number Theory I (A) FA1538 15 85.7% 100.0% 8.79 B+ (3.38) C+ (2.64)
Salehi Golsefidy, Alireza MATH 109 - Mathematical Reasoning (A) FA15140 94 96.7% 92.2% 8.20 B+ (3.40) B- (2.88)
Chow, Bennett MATH 109 - Mathematical Reasoning (B) FA15154 60 89.3% 89.3% 6.57 B+ (3.47) B- (2.94)
Eggers, John Dietrich MATH 10A - Calculus I (A) FA15209 107 84.5% 83.5% 6.26 B (3.01) C+ (2.41)
Barrese, Kenneth William MATH 10A - Calculus I (B) FA15165 77 81.9% 80.6% 5.89 B- (2.92) C+ (2.57)
Gawlik, Evan Scott MATH 10A - Calculus I (C) FA15163 87 90.5% 85.7% 4.86 B (3.11) C+ (2.47)
Bowers, Adam R. MATH 10B - Calculus II (A) FA15292 233 90.9% 97.4% 5.89 B (3.07) C+ (2.37)
Tiee, Christopher Landrick MATH 10B - Calculus II (B) FA15205 100 83.9% 45.2% 4.56 B+ (3.45) B+ (3.53)
Mohanty, Sara MATH 10C - Calculus III (A) FA15105 56 81.5% 70.4% 6.43 B (3.15) C (2.21)
Kim, Yeon Kyung MATH 10C - Calculus III (B) FA15273 110 80.2% 57.5% 5.90 B (3.16) C+ (2.59)
Longo, Brian Mitchell MATH 10C - Calculus III (C) FA15190 94 92.4% 97.8% 5.38 B+ (3.38) C+ (2.58)
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) FA1564 23 95.5% 100.0% 6.41 B+ (3.40) C+ (2.55)
Agler, Jim MATH 130A - Ordinary Differntl Equation I (A) FA1589 27 76.0% 76.0% 6.26 B (3.17) B (3.15)
Rogalski, Daniel MATH 140A - Foundations of Real Analysis I (A) FA1568 29 85.7% 96.4% 9.83 B (3.19) C+ (2.61)
Wenzl, Hans G MATH 142A - Introduction to Analysis I (A) FA15140 51 85.1% 80.9% 8.63 B- (2.94) C+ (2.47)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA1533 15 93.3% 93.3% 7.43 B (3.00) B- (2.76)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA1524 6 100.0% 100.0% 9.50 B+ (3.67) B (3.07)
Dilts, James Paul MATH 170A - Intro Numerical Analys/Linear (A) FA15143 53 85.1% 74.5% 9.14 B (3.24) B- (2.75)
Leok, Melvin MATH 174 - Numericl Methods/Physcl Modlng (A) FA1522 6 80.0% 100.0% 6.50 B+ (3.50) B+ (3.46)
Meyer, David A. MATH 180A - Introduction to Probability (A) FA15271 115 90.0% 83.6% 6.31 B (3.20) B- (2.87)
Kane, Daniel Mertz MATH 184A - Combinatorics (A) FA15129 50 81.6% 77.6% 8.04 B (3.23) B- (2.96)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (A) FA15321 165 98.7% 100.0% 5.81 B+ (3.48) B- (2.81)
Novak, Jonathan I MATH 20A - Calculus/Science & Engineering (B) FA15193 86 91.4% 75.3% 4.63 B+ (3.53) B- (2.92)
Buss, Samuel R MATH 20A - Calculus/Science & Engineering (C) FA15205 101 94.7% 86.3% 5.65 B+ (3.35) B- (2.91)
Jiang, Zonglin MATH 20A - Calculus/Science & Engineering (D) FA15165 88 96.5% 69.8% 5.58 B+ (3.58) B (3.04)
Barrese, Kenneth William MATH 20B - Calculus/Science & Engineering (A) FA15272 138 81.1% 34.8% 7.46 C+ (2.62) C+ (2.66)
Behzadan, Ali MATH 20B - Calculus/Science & Engineering (B) FA15238 133 98.4% 100.0% 6.50 B+ (3.65) B (3.18)
Saab, Rayan MATH 20B - Calculus/Science & Engineering (C) FA15224 164 86.4% 93.2% 6.69 B- (2.87) C+ (2.47)
Kim, Yeon Kyung MATH 20B - Calculus/Science & Engineering (D) FA15214 112 84.5% 63.6% 5.95 B (3.10) B- (2.83)
Medrano, Archie T. MATH 20B - Calculus/Science & Engineering (E) FA15215 112 93.7% 74.8% 5.15 A- (3.71) B (3.07)
Carter, Anne Toulson MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA15368 233 97.8% 96.9% 5.78 B+ (3.64) B- (2.95)
Mohanty, Sara MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA15371 181 93.8% 77.0% 6.50 B+ (3.40) B- (2.71)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA15372 158 82.1% 74.8% 7.81 B (3.19) C+ (2.63)
Sun, Hui MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA15359 182 96.5% 93.0% 5.32 B+ (3.55) N/A
Wang, Xu MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA15268 158 85.1% 46.8% 6.80 B+ (3.68) C+ (2.68)
Cheng, Hsiao-Bing MATH 20C - Calculus&Analyt Geom/Sci&Engnr (F) FA15187 90 92.1% 71.9% 6.43 B+ (3.33) B- (2.88)
Sterbenz, Jacob MATH 20D - Intro/Differential Equations (A) FA15273 104 93.8% 88.5% 6.74 B+ (3.64) B- (2.78)
Deotte, Christopher George MATH 20D - Intro/Differential Equations (B) FA15283 120 95.6% 96.5% 5.95 B+ (3.38) B- (2.85)
Cheng, Hsiao-Bing MATH 20D - Intro/Differential Equations (C) FA15171 66 67.7% 48.4% 7.64 B (3.16) B- (2.89)
Tiee, Christopher Landrick MATH 20D - Intro/Differential Equations (D) FA15115 42 82.5% 65.0% 5.45 B (3.26) B (3.16)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) FA15329 121 88.8% 85.3% 7.24 B+ (3.39) B+ (3.39)
Saab, Rayan MATH 20E - Vector Calculus (B) FA15298 180 86.0% 95.0% 7.42 B (3.24) C+ (2.69)
Lu, Shaoying MATH 20F - Linear Algebra (A) FA15289 124 86.6% 58.0% 6.04 B+ (3.43) B (3.15)
Oswald, Albert Georg Peter MATH 20F - Linear Algebra (B) FA15231 100 70.5% 40.0% 6.81 B (3.15) B- (2.79)
Wong, Elizabeth Lai Sum MATH 20F - Linear Algebra (C) FA15244 98 97.9% 96.8% 6.19 A- (3.75) B (3.18)
Sorensen, Claus M MATH 31AH - Honors Linear Algebra (A) FA1571 40 92.1% 81.6% 7.24 B+ (3.37) B- (2.79)
Spicer, Calum William Donald MATH 3C - Precalculus (A) FA15116 53 92.0% 84.0% 6.26 B- (2.94) C+ (2.53)
Zou, Nan MATH 3C - Precalculus (B) FA1590 45 59.1% 25.0% 5.29 B- (2.93) C+ (2.51)
Sangha, Luvreet Singh MATH 4C - Pre-calculus for Sci & Engn (A) FA1597 64 93.5% 96.8% 6.08 B (3.08) B- (2.86)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA1514 11 100.0% 100.0% 2.14 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (B) FA159 7 100.0% 85.7% 0.79 A (4.00) N/A
Rideout, David Porter MATH 102 - Applied Linear Algebra (A) S21570 20 84.2% 57.9% 9.61 B+ (3.42) B (3.15)
Eggers, John Dietrich MATH 109 - Mathematical Reasoning (A) S21524 9 77.8% 88.9% 15.61 B+ (3.56) B- (2.97)
Cummings, Jonathan James MATH 10B - Calculus II (A) S21547 29 92.9% 96.4% 7.17 B+ (3.40) B- (2.89)
Elle, Susan Michelle MATH 10C - Calculus III (A) S21576 18 43.8% 43.8% 7.13 C+ (2.60) C- (1.99)
Jones, Miles E MATH 110A - Intro/Partial Differ Equations (A) S21531 5 40.0% 40.0% 8.90 B- (2.75) B- (2.79)
Jones, Miles E MATH 142B - Introduction to Analysis II (A) S21531 10 90.0% 100.0% 6.70 A- (3.70) B- (2.87)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21527 10 100.0% 100.0% 9.70 B+ (3.40) B (3.27)
Sun, Hui MATH 170B - Intro/Numerical Analy/Approxim (A) S21528 11 90.9% 90.9% 7.77 B+ (3.40) B (3.27)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21533 9 100.0% 100.0% 10.06 B+ (3.67) B+ (3.41)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S21558 18 100.0% 83.3% 8.50 B+ (3.42) C+ (2.66)
Wilkins, Gautam Andrew MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S215108 35 97.1% 100.0% 8.92 B+ (3.53) B (3.11)
Oliver, Jesus R MATH 20D - Intro/Differential Equations (A) S215101 39 97.1% 100.0% 8.84 A- (3.73) B (3.18)
Hoff, Daniel Joseph MATH 20E - Vector Calculus (A) S215112 33 83.3% 93.3% 11.95 B (3.14) B- (2.98)
Eggers, John Dietrich MATH 20E - Vector Calculus (B) S21542 14 100.0% 100.0% 12.81 B+ (3.57) B (3.22)
Nie, Jiawang MATH 20F - Linear Algebra (A) S215167 48 83.7% 65.1% 10.40 B+ (3.39) B (3.24)
Won, Robert Jeffrey MATH 3C - Precalculus (A) S21529 24 91.3% 95.7% 10.59 B- (2.76) B- (2.80)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) S11588 24 95.5% 90.9% 8.40 B+ (3.50) B- (2.91)
Ceccherini-Silberstein, Tullio MATH 10A - Calculus I (A) S11540 10 80.0% 70.0% 13.17 B- (2.89) B (3.03)
Tait, Michael MATH 10B - Calculus II (A) S11550 41 87.8% 90.2% 9.43 B (3.05) C+ (2.62)
Oliver, Jesus R MATH 120A - Elements of Complex Analysis (A) S11555 13 91.7% 91.7% 9.41 B (3.08) B- (2.89)
Chow, Bennett MATH 142A - Introduction to Analysis I (A) S11572 10 66.7% 66.7% 10.06 B (3.25) B- (2.71)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S11537 11 100.0% 100.0% 9.10 B+ (3.40) B+ (3.33)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11566 13 75.0% 75.0% 11.77 B+ (3.40) B+ (3.32)
Ceccherini-Silberstein, Tullio MATH 20A - Calculus/Science & Engineering (A) S11526 5 100.0% 100.0% 11.50 A (4.00) B (3.03)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S11562 16 92.9% 85.7% 8.65 B- (2.79) C+ (2.65)
Zhou, Shenggao MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S115101 21 95.2% 57.1% 7.64 B+ (3.38) B- (2.84)
Bryan, Paul Anthony MATH 20D - Intro/Differential Equations (A) S115106 17 88.2% 70.6% 9.25 B+ (3.50) B- (2.87)
Bryan, Paul Anthony MATH 20E - Vector Calculus (A) S11598 30 82.8% 75.9% 8.58 B+ (3.52) B- (2.97)
Harel, Guershon MATH 20F - Linear Algebra (A) S115148 48 91.3% 82.6% 8.77 B+ (3.53) B- (2.97)
Evans, Ronald J. MATH 100C - Abstract Algebra III (A) SP1522 11 72.7% 100.0% 6.32 B+ (3.36) B+ (3.55)
Popescu, Cristian D. MATH 104A - Number Theory I (A) SP1535 10 90.0% 100.0% 8.10 B+ (3.40) B- (2.96)
Bucur, Alina Ioana MATH 104C - Number Theory III (A) SP159 8 100.0% 85.7% 7.36 A- (3.83) N/A
Popescu, Cristian D. MATH 109 - Mathematical Reasoning (A) SP1569 26 79.2% 100.0% 7.89 B (3.04) C+ (2.63)
Ni, Lei MATH 109 - Mathematical Reasoning (B) SP1575 28 92.6% 85.2% 6.06 B+ (3.58) B+ (3.36)
Zhou, Shenggao MATH 10A - Calculus I (A) SP15117 40 84.2% 78.9% 5.20 B- (2.97) B- (2.85)
Chow, Bennett MATH 10B - Calculus II (A) SP15203 89 79.3% 67.1% 5.36 B (3.08) C+ (2.52)
Banaszak, Grzegorz Marian MATH 10B - Calculus II (B) SP15114 41 75.0% 65.0% 5.00 B (3.18) C (2.21)
Eggers, John Dietrich MATH 10C - Calculus III (A) SP15239 97 89.1% 83.7% 5.86 B (3.06) C+ (2.57)
Oliver, Jesus R MATH 10C - Calculus III (B) SP15179 69 94.1% 95.6% 4.38 B+ (3.51) B- (2.93)
Sharpnack, James MATH 11 - Calculus-Based Prob & Stats (A) SP15218 107 85.7% 67.6% 6.48 B+ (3.51) B- (2.83)
Helton, John W. MATH 120B - Applied Complex Analysis (A) SP1520 9 75.0% 50.0% 6.00 B+ (3.57) B (3.25)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1523 21 95.2% 100.0% 4.60 B+ (3.63) B+ (3.30)
Li, Bo MATH 130B - Ordinary Differntl Equation II (A) SP1514 8 85.7% 100.0% 6.21 B+ (3.33) N/A
Chow, Bennett MATH 140B - Foundations/Real Analysis II (A) SP1527 10 90.0% 100.0% 6.28 B+ (3.50) B (3.14)
Saab, Rayan MATH 140C - Foundations/Real Analysis III (A) SP1519 17 94.1% 100.0% 6.63 B (3.13) N/A
Agler, Jim MATH 142B - Introduction to Analysis II (A) SP15100 37 82.9% 77.1% 6.88 B+ (3.32) B- (2.99)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) SP1536 11 90.0% 80.0% 9.70 B+ (3.40) B (3.06)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) SP15161 57 91.1% 98.2% 6.95 B+ (3.59) B (3.04)
Bowers, Adam R. MATH 163 - History of Mathematics (A) SP15135 61 82.0% 86.9% 4.80 B (3.02) C+ (2.69)
Deotte, Christopher George MATH 170A - Intro Numerical Analys/Linear (A) SP15137 58 90.9% 85.5% 7.02 B+ (3.48) B (3.07)
Cheng, Li-Tien MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1521 3 100.0% 100.0% 4.50 B+ (3.50) C+ (2.70)
Holst, Michael J MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1549 18 100.0% 88.9% 6.10 B+ (3.41) B+ (3.46)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP158 3 100.0% 100.0% 7.83 C+ (2.67) N/A
Fitzsimmons, Patrick J MATH 180C - Intro/Stochastic Processes II (A) SP1583 29 93.1% 79.3% 7.05 B+ (3.32) B- (2.90)
Abramson, Ian S MATH 181A - Intro/Math Statistics I (A) SP15108 40 71.8% 69.2% 7.18 B (3.24) B (3.01)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) SP1528 14 100.0% 100.0% 8.04 B+ (3.69) B+ (3.48)
Xu, Ronghui MATH 183 - Statistical Methods (A) SP15220 191 73.8% 74.9% 5.91 B (3.22) B (3.02)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP1546 21 90.5% 76.2% 7.74 B+ (3.42) B+ (3.65)
Sun, Hui MATH 20A - Calculus/Science & Engineering (A) SP15107 38 94.4% 94.4% 5.67 B+ (3.47) B- (2.91)
Pelletier, Bruno MATH 20B - Calculus/Science & Engineering (A) SP15159 58 83.6% 74.5% 6.69 B- (2.87) C (2.17)
Wang, Jie MATH 20B - Calculus/Science & Engineering (B) SP15201 77 79.5% 63.0% 6.70 B (3.06) C- (1.91)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP15371 141 95.5% 90.2% 6.53 B+ (3.48) C+ (2.66)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP15293 135 94.7% 98.5% 6.01 B+ (3.31) C+ (2.58)
Saab, Rayan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP15152 84 91.4% 92.6% 5.64 B (3.28) C+ (2.63)
Bucur, Alina Ioana MATH 20D - Intro/Differential Equations (A) SP15195 172 88.3% 78.4% 5.66 B+ (3.40) C+ (2.55)
Martirosyan, Lilit MATH 20D - Intro/Differential Equations (B) SP15286 127 83.3% 35.0% 5.73 B+ (3.60) B (3.18)
Oliver, Jesus R MATH 20E - Vector Calculus (A) SP15334 140 91.2% 99.3% 7.25 B+ (3.49) B- (2.89)
Martirosyan, Lilit MATH 20E - Vector Calculus (B) SP15205 62 78.0% 45.8% 6.43 B+ (3.54) B- (2.96)
Wang, Jie MATH 20F - Linear Algebra (A) SP15361 165 89.2% 75.9% 5.49 B+ (3.49) B- (2.99)
Pelletier, Bruno MATH 20F - Linear Algebra (B) SP15285 111 75.5% 53.8% 4.93 B+ (3.37) B- (2.80)
Harel, Guershon MATH 20F - Linear Algebra (C) SP15311 120 92.2% 80.2% 6.12 B+ (3.61) B (3.06)
Ioana, Adrian MATH 31CH - Honors Vector Calculus (A) SP1526 14 92.9% 100.0% 5.42 B+ (3.54) B (3.16)
Haff, Leonard R. MATH 87 - Freshman Seminar (A) SP1518 11 100.0% 100.0% 1.30 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1530 19 100.0% 100.0% 0.94 A (4.00) A (4.00)
Small, Lance W. MATH 100B - Abstract Algebra II (A) WI1539 16 68.8% 68.8% 5.43 B (3.13) B+ (3.54)
Harel, Guershon MATH 102 - Applied Linear Algebra (A) WI1599 31 89.7% 89.7% 6.64 B+ (3.58) C+ (2.32)
Zelmanov, Efim I MATH 103B - Modern Algebra II (A) WI1535 13 83.3% 100.0% 5.59 B (3.27) B (3.01)
Bucur, Alina Ioana MATH 104B - Number Theory II (A) WI1510 4 100.0% 75.0% 7.50 A (4.00) N/A
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) WI1567 27 88.5% 76.9% 5.58 B (3.13) B (3.18)
Rogalski, Daniel MATH 109 - Mathematical Reasoning (B) WI1574 37 88.9% 86.1% 7.22 B (3.06) B (3.01)
Sorensen, Claus M MATH 109 - Mathematical Reasoning (C) WI1550 25 76.0% 60.0% 7.14 B (3.00) B- (2.85)
Zhou, Shenggao MATH 10A - Calculus I (A) WI15195 92 85.6% 75.6% 5.19 B (3.26) B- (2.81)
Boutonnet, Remi MATH 10A - Calculus I (B) WI15121 69 68.2% 33.3% 5.79 C+ (2.65) C+ (2.39)
Stevens, Laura Jeanne MATH 10B - Calculus II (A) WI15280 127 94.3% 98.4% 5.67 B (3.08) C+ (2.48)
Mohanty, Sara MATH 10B - Calculus II (C) WI15190 79 79.2% 79.2% 5.28 B- (2.81) C+ (2.33)
Wang, Jie MATH 10C - Calculus III (A) WI15196 101 92.5% 81.7% 4.65 B+ (3.59) B (3.01)
Roberts, Justin Deritter MATH 10C - Calculus III (B) WI15282 119 86.3% 77.8% 4.90 B+ (3.41) B (3.02)
Wenzl, Hans G MATH 110B - Partial Diff Equa&Integral Equ (A) WI1514 5 100.0% 40.0% 7.30 B (3.00) N/A
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) WI1551 22 95.5% 100.0% 7.55 B+ (3.45) B- (2.74)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1534 34 97.1% 97.1% 4.86 B+ (3.68) B (3.22)
Li, Bo MATH 130A - Ordinary Differntl Equation I (A) WI1575 33 80.0% 96.7% 5.76 A- (3.70) B- (2.91)
Chow, Bennett MATH 140A - Foundations of Real Analysis I (A) WI1533 9 87.5% 100.0% 11.00 A- (3.86) B- (2.82)
Oprea, Dragos N. MATH 140B - Foundations/Real Analysis II (A) WI1525 15 93.3% 100.0% 9.64 B (3.08) C+ (2.68)
Agler, Jim MATH 142A - Introduction to Analysis I (A) WI15111 53 78.4% 82.4% 7.42 B (3.18) B- (2.84)
Bryan, Paul Anthony MATH 142B - Introduction to Analysis II (A) WI1558 18 77.8% 83.3% 6.83 B+ (3.56) B- (2.80)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) WI1511 4 100.0% 100.0% 5.50 B+ (3.67) N/A
Graham, Fan Chung MATH 152 - Applicable Math and Computing (A) WI1564 26 92.0% 44.0% 4.50 B+ (3.50) B+ (3.45)
Bach, Quang Tran MATH 155A - Geometric Computer Graphics (A) WI1538 16 92.3% 100.0% 5.58 A (4.00) A- (3.96)
Garsia, Adriano M. MATH 155A - Geometric Computer Graphics (A) WI1538 15 91.7% 91.7% 5.50 A (4.00) N/A
Aisenberg, James Maxwell MATH 15A - Intro/Discrete Mathematics (A) WI15277 151 83.8% 76.1% 6.28 B+ (3.45) B- (2.94)
Saab, Rayan MATH 170B - Intro/Numerical Analy/Approxim (A) WI1537 29 89.7% 100.0% 7.95 B+ (3.31) B (3.04)
Gill, Philip E. MATH 171A - Intro Num Optimiz/Linear Prog (A) WI1574 64 92.2% 85.9% 7.31 B+ (3.60) B (3.28)
Fitzsimmons, Patrick J MATH 180A - Introduction to Probability (A) WI1589 31 87.1% 80.6% 7.60 B (3.28) B- (2.88)
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (A) WI15106 55 86.8% 67.9% 6.96 B+ (3.52) B- (2.76)
Xu, Ronghui MATH 181A - Intro/Math Statistics I (A) WI1561 28 92.3% 80.8% 6.12 B (3.08) B (3.01)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (A) WI1512 8 100.0% 100.0% 9.93 A (4.00) N/A
Bradic, Jelena MATH 183 - Statistical Methods (A) WI15281 123 88.3% 93.3% 5.08 B+ (3.64) B (3.00)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (B) WI1582 39 89.7% 87.2% 5.92 B+ (3.46) B- (2.87)
Bradic, Jelena MATH 189 - Data Analysis and Inference (B) WI1548 28 87.5% 95.8% 7.95 A- (3.86) B+ (3.61)
Bowers, Adam R. MATH 194 - The Mathematics of Finance (A) WI15104 79 91.1% 97.5% 6.63 B+ (3.53) C+ (2.47)
Bacellar Dos Santo, Jorge MATH 20A - Calculus/Science & Engineering (A) WI1559 27 88.0% 48.0% 6.08 B- (2.88) C+ (2.36)
Wang, Xingting MATH 20A - Calculus/Science & Engineering (B) WI15184 84 93.8% 86.3% 6.24 B (3.20) B+ (3.45)
Bryan, Paul Anthony MATH 20B - Calculus/Science & Engineering (A) WI15168 69 88.9% 66.7% 6.34 B (3.26) C+ (2.66)
Allen, Grant MATH 20B - Calculus/Science & Engineering (B) WI15213 96 92.2% 60.0% 6.72 B+ (3.30) C+ (2.52)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (C) WI15384 183 88.5% 97.7% 6.73 B- (2.94) C (2.23)
Banaszak, Grzegorz Marian MATH 20B - Calculus/Science & Engineering (D) WI15121 53 88.5% 44.2% 6.38 B (3.24) C+ (2.38)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI15369 185 91.2% 91.7% 6.16 B (3.28) B- (2.90)
Oliver, Jesus R MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI15271 134 96.1% 96.1% 6.52 B+ (3.44) B- (2.92)
Banaszak, Grzegorz Marian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI15202 101 86.3% 61.1% 4.65 B+ (3.44) B (3.13)
Wang, Xingting MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI15303 167 93.2% 92.6% 5.34 A- (3.79) B+ (3.67)
Oliver, Jesus R MATH 20D - Intro/Differential Equations (A) WI15356 175 97.0% 97.0% 6.73 B+ (3.52) B- (2.97)
Martirosyan, Lilit MATH 20D - Intro/Differential Equations (B) WI15257 123 91.8% 43.4% 5.69 B+ (3.61) C+ (2.68)
Behzadan, Ali MATH 20E - Vector Calculus (A) WI15196 93 93.3% 98.9% 6.27 A- (3.73) B+ (3.64)
Wang, Jie MATH 20E - Vector Calculus (B) WI15228 81 75.6% 59.0% 6.58 B+ (3.41) B+ (3.48)
Martirosyan, Lilit MATH 20E - Vector Calculus (C) WI15159 46 72.1% 32.6% 6.73 B+ (3.37) B- (2.80)
Peng, Xing MATH 20F - Linear Algebra (A) WI15343 242 87.9% 59.2% 6.15 B+ (3.51) B- (2.72)
Eggers, John Dietrich MATH 20F - Linear Algebra (B) WI15393 150 67.8% 81.1% 7.11 B- (2.99) C+ (2.43)
Sorensen, Claus M MATH 20F - Linear Algebra (C) WI15303 153 89.2% 63.5% 6.09 B (3.28) B- (2.90)
Rabin, Jeffrey Mark MATH 31BH - Honors Multivariable Calculus (A) WI1529 19 94.7% 100.0% 7.66 B+ (3.61) B (3.21)
Elle, Susan Michelle MATH 3C - Precalculus (A) WI1579 32 84.4% 78.1% 5.53 C+ (2.61) C (2.14)
Wen, Jiayi MATH 4C - Pre-calculus for Sci & Engn (A) WI1545 19 78.9% 73.7% 5.76 B- (2.88) B- (2.82)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1520 15 100.0% 100.0% 0.50 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (B) WI1512 7 85.7% 85.7% 0.79 A (4.00) N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (C) WI1517 14 92.3% 100.0% 1.33 A (4.00) N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1513 6 83.3% 83.3% 1.50 A- (3.80) N/A
Salehi Golsefidy, Alireza MATH 100A - Abstract Algebra I (A) FA1458 30 85.7% 89.3% 9.43 B+ (3.32) C+ (2.65)
Eggers, John Dietrich MATH 102 - Applied Linear Algebra (A) FA14113 43 73.0% 70.3% 9.06 B (3.26) B- (2.82)
Sorensen, Claus M MATH 103A - Modern Algebra I (A) FA1449 24 85.7% 95.2% 6.31 B (3.10) B- (2.89)
Oprea, Dragos N. MATH 104A - Number Theory I (A) FA1442 17 82.4% 100.0% 7.79 B (3.27) B (3.01)
Pelayo, Alvaro MATH 109 - Mathematical Reasoning (A) FA1483 43 89.7% 79.5% 5.61 B (3.19) B- (2.93)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (B) FA1486 39 86.5% 94.6% 6.56 B+ (3.38) C+ (2.52)
Zhou, Shenggao MATH 10A - Calculus I (A) FA14119 55 94.2% 80.8% 6.19 B+ (3.40) B- (2.83)
Eggers, John Dietrich MATH 10A - Calculus I (B) FA14292 126 86.8% 83.3% 5.24 B (3.07) B- (2.70)
Aisenberg, James Maxwell MATH 10A - Calculus I (C) FA14126 55 82.4% 62.7% 6.03 B (3.17) B- (2.81)
Stevens, Laura Jeanne MATH 10B - Calculus II (A) FA14340 171 96.8% 98.7% 5.75 B+ (3.46) B- (2.82)
Banaszak, Grzegorz Marian MATH 10B - Calculus II (B) FA14153 68 82.5% 31.6% 5.27 B+ (3.38) B+ (3.42)
Cheng, Hsiao-Bing MATH 10C - Calculus III (A) FA14199 95 68.1% 48.4% 7.06 B- (2.96) C+ (2.59)
Cheng, Hsiao-Bing MATH 10C - Calculus III (B) FA14341 128 80.2% 69.8% 6.78 B- (2.97) C+ (2.59)
Wenzl, Hans G MATH 110A - Intro/Partial Differ Equations (A) FA1445 20 66.7% 72.2% 5.91 B (3.19) B- (2.96)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1424 12 100.0% 100.0% 5.17 B+ (3.50) A- (3.71)
Agler, Jim MATH 120A - Elements of Complex Analysis (A) FA1426 12 91.7% 91.7% 6.17 B+ (3.42) B- (2.76)
Oprea, Dragos N. MATH 140A - Foundations of Real Analysis I (A) FA1441 20 84.2% 73.7% 10.74 B (3.13) B- (2.83)
Bryan, Paul Anthony MATH 142A - Introduction to Analysis I (A) FA1472 24 63.6% 77.3% 7.45 B (3.23) B- (2.77)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA1423 13 92.3% 100.0% 7.73 B+ (3.45) B- (2.79)
Nie, Jiawang MATH 170A - Intro Numerical Analys/Linear (A) FA14133 54 79.2% 72.9% 7.48 B+ (3.45) B- (2.83)
Holst, Michael J MATH 174 - Numericl Methods/Physcl Modlng (A) FA1422 19 83.3% 83.3% 6.50 B (3.12) A- (3.81)
Schweinsberg, Jason MATH 180A - Introduction to Probability (A) FA14150 71 100.0% 100.0% 8.05 B+ (3.44) B (3.06)
Tesler, Glenn MATH 184A - Combinatorics (A) FA1467 31 96.7% 86.7% 7.04 B (3.27) B- (2.84)
Rhoades, Brendon Patrick MATH 190 - Introduction to Topology (A) FA1417 13 75.0% 83.3% 9.77 B (3.00) N/A
Wang, Jie MATH 20A - Calculus/Science & Engineering (A) FA14144 69 95.2% 83.9% 6.08 B+ (3.61) B- (2.85)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (B) FA14397 211 97.9% 99.5% 6.19 B+ (3.64) B (3.17)
Bryan, Paul Anthony MATH 20A - Calculus/Science & Engineering (C) FA14186 83 93.3% 74.7% 4.81 B+ (3.65) B (3.17)
Wang, Xingting MATH 20A - Calculus/Science & Engineering (D) FA14138 74 92.6% 70.6% 5.27 B+ (3.62) B- (2.86)
Wen, Jiayi MATH 20B - Calculus/Science & Engineering (A) FA14176 87 97.3% 72.0% 6.18 B+ (3.53) B (3.05)
Izadi, Elham MATH 20B - Calculus/Science & Engineering (B) FA14205 108 81.6% 43.9% 7.19 B (3.07) C+ (2.41)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (C) FA14274 134 96.1% 100.0% 6.50 B+ (3.40) B- (2.70)
Li, Xiaolong MATH 20B - Calculus/Science & Engineering (D) FA14222 121 83.3% 44.7% 6.62 B (3.25) B (3.22)
Sun, Hui MATH 20B - Calculus/Science & Engineering (E) FA14215 107 94.1% 81.4% 6.30 B+ (3.56) B (3.10)
Bucur, Alina Ioana MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA14309 180 85.9% 45.9% 6.42 B+ (3.32) C+ (2.54)
Wang, Jie MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA14397 246 93.6% 72.8% 5.32 B+ (3.69) B (3.26)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA14413 321 94.4% 98.0% 7.40 B+ (3.46) B+ (3.40)
Salehi Golsefidy, Alireza MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA14420 391 91.2% 95.1% 5.73 B+ (3.52) B- (2.85)
Wang, Xingting MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA14323 209 94.1% 86.2% 4.92 A- (3.80) B+ (3.52)
Peng, Xing MATH 20D - Intro/Differential Equations (A) FA14177 75 90.8% 67.7% 6.16 B+ (3.52) B- (2.87)
Bejenaru, Ioan MATH 20D - Intro/Differential Equations (B) FA14283 118 86.2% 84.4% 7.04 B (3.26) B- (2.71)
Oliver, Jesus R MATH 20D - Intro/Differential Equations (C) FA14196 83 93.7% 98.7% 6.32 B+ (3.68) B (3.02)
Oliver, Jesus R MATH 20D - Intro/Differential Equations (D) FA14191 72 87.5% 91.7% 6.85 B+ (3.65) B (3.02)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) FA14280 107 74.2% 67.0% 7.24 B (3.30) B (3.03)
Kemp, Todd Aahron MATH 20E - Vector Calculus (B) FA14271 157 90.8% 96.7% 8.24 B+ (3.44) B- (2.87)
Lu, Shaoying MATH 20F - Linear Algebra (A) FA14357 130 82.3% 45.2% 5.73 B+ (3.35) B- (2.91)
McKernan, James MATH 20F - Linear Algebra (B) FA14277 99 82.4% 59.3% 5.81 B+ (3.32) B (3.06)
Banaszak, Grzegorz Marian MATH 20F - Linear Algebra (C) FA14188 78 69.9% 23.3% 6.47 B (3.10) B- (2.76)
Ioana, Adrian MATH 31AH - Honors Linear Algebra (A) FA1467 43 76.3% 86.8% 8.55 B+ (3.38) B- (2.77)
Bach, Quang Tran MATH 3C - Precalculus (A) FA14116 55 94.2% 96.2% 4.77 B (3.17) B- (2.80)
Semko, Jeremy Sean MATH 3C - Precalculus (B) FA14139 62 83.1% 79.7% 5.16 B- (2.74) C+ (2.33)
Kim, Yeon Kyung MATH 4C - Pre-calculus for Sci & Engn (A) FA14128 64 82.1% 76.8% 5.22 B+ (3.42) C+ (2.51)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA1415 12 100.0% 100.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) FA1419 14 100.0% 100.0% 0.81 A (4.00) N/A
Rideout, David Porter MATH 102 - Applied Linear Algebra (A) S21445 9 66.7% 66.7% 11.17 B+ (3.56) B- (2.90)
Li, Xiaolong MATH 10B - Calculus II (A) S21444 7 85.7% 42.9% 8.79 C+ (2.67) B- (2.84)
Leven, Emily Lynn MATH 10C - Calculus III (A) S214108 36 81.3% 93.8% 6.31 B+ (3.48) B+ (3.33)
Sun, Hui MATH 110A - Intro/Partial Differ Equations (A) S21431 11 100.0% 100.0% 8.10 B+ (3.50) B (3.06)
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) S21449 10 88.9% 100.0% 9.17 B+ (3.33) C+ (2.63)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21424 7 100.0% 85.7% 9.07 B+ (3.43) B+ (3.67)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S21458 16 81.3% 81.3% 9.88 B (3.13) C+ (2.66)
Bryan, Paul Anthony MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S21494 17 100.0% 66.7% 9.36 B (3.08) C+ (2.69)
Bryan, Paul Anthony MATH 20D - Intro/Differential Equations (A) S21472 15 100.0% 53.3% 8.50 B+ (3.57) B (3.10)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) S214151 32 71.0% 93.5% 10.05 B (3.19) C+ (2.69)
Bach, Quang Tran MATH 20F - Linear Algebra (A) S214136 35 84.4% 62.5% 8.36 B+ (3.55) B- (2.78)
Oliver, Jesus R MATH 3C - Precalculus (A) S21419 9 100.0% 100.0% 9.61 B (3.00) N/A
Stevens, Laura Jeanne MATH 109 - Mathematical Reasoning (A) S11448 24 100.0% 100.0% 8.25 B+ (3.54) B- (2.77)
Oliver, Jesus R MATH 10A - Calculus I (A) S11445 13 69.2% 100.0% 7.67 B (3.18) C+ (2.66)
Kim, Yeon Kyung MATH 10B - Calculus II (A) S11448 7 57.1% 71.4% 7.36 C+ (2.43) C+ (2.61)
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) S11422 3 100.0% 0.0% 10.50 B+ (3.67) B- (2.88)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) S11472 12 100.0% 100.0% 11.10 A- (3.70) B+ (3.35)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S11447 15 100.0% 100.0% 7.58 B+ (3.54) B+ (3.33)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11451 9 100.0% 88.9% 8.06 B+ (3.33) B+ (3.50)
Chow, Bennett MATH 20A - Calculus/Science & Engineering (A) S11437 6 100.0% 60.0% 8.90 A- (3.80) C+ (2.68)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S11471 12 100.0% 80.0% 7.90 B+ (3.44) B (3.08)
Chow, Bennett MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S114136 21 62.5% 93.8% 7.00 B (3.00) B- (2.74)
Zhou, Shenggao MATH 20D - Intro/Differential Equations (A) S114122 26 92.3% 76.9% 6.66 B+ (3.65) B (3.14)
Bryan, Paul Anthony MATH 20E - Vector Calculus (A) S11462 16 73.3% 66.7% 8.23 B+ (3.40) B- (2.95)
Harel, Guershon MATH 20F - Linear Algebra (A) S114163 55 92.5% 84.9% 7.33 A- (3.80) B- (2.87)
Popescu, Cristian D. MATH 100C - Abstract Algebra III (A) SP1413 6 100.0% 100.0% 10.10 B- (2.80) N/A
Rogalski, Daniel MATH 103B - Modern Algebra II (A) SP1418 5 80.0% 80.0% 6.50 B (3.00) N/A
Sorensen, Claus M MATH 104A - Number Theory I (A) SP1441 21 90.5% 100.0% 7.30 B+ (3.35) B- (2.99)
Agler, Jim MATH 109 - Mathematical Reasoning (A) SP1456 20 100.0% 94.4% 6.39 B (3.06) B (3.05)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (B) SP1475 34 93.9% 100.0% 6.63 B+ (3.45) C+ (2.38)
Wong, Wiseley A MATH 10A - Calculus I (A) SP14172 108 73.7% 63.6% 5.91 C+ (2.49) C- (1.91)
Wilson, Andrew Timothy MATH 10B - Calculus II (A) SP14176 69 87.9% 86.4% 6.26 B- (2.82) C+ (2.52)
Meier, Caleb A MATH 10B - Calculus II (B) SP14165 62 81.4% 84.7% 6.57 B (3.02) C+ (2.66)
Bowers, Adam R. MATH 10C - Calculus III (A) SP14189 85 84.5% 98.8% 5.90 B (3.21) B- (2.98)
Eggers, John Dietrich MATH 10C - Calculus III (B) SP14261 94 82.6% 71.7% 5.77 B (3.15) B- (2.79)
Wong, Wiseley A MATH 10C - Calculus III (C) SP14124 48 72.3% 63.8% 6.11 B (3.12) B- (2.93)
Schweinsberg, Jason MATH 11 - Calculus-Based Prob & Stats (A) SP14206 91 83.1% 94.4% 8.95 B+ (3.37) B- (2.92)
Ni, Lei MATH 110B - Partial Diff Equa&Integral Equ (A) SP1417 7 85.7% 71.4% 8.17 B+ (3.67) N/A
Wenzl, Hans G MATH 120B - Applied Complex Analysis (A) SP149 4 75.0% 75.0% 6.50 B+ (3.33) N/A
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1421 18 94.4% 100.0% 5.17 B (3.06) B (3.00)
Evans, Ronald J. MATH 140B - Foundations/Real Analysis II (A) SP1417 8 100.0% 100.0% 9.07 B+ (3.43) N/A
Ioana, Adrian MATH 140C - Foundations/Real Analysis III (B) SP1413 5 100.0% 100.0% 7.30 B- (2.80) N/A
Rogalski, Daniel MATH 142B - Introduction to Analysis II (A) SP14105 42 85.7% 92.9% 7.25 B+ (3.31) B (3.08)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) SP1424 11 90.9% 54.5% 5.41 B (3.27) C+ (2.38)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) SP1478 38 97.3% 97.3% 7.39 B+ (3.57) B+ (3.41)
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP1484 26 50.0% 15.4% 4.42 B+ (3.32) B- (2.72)
Holst, Michael J MATH 170B - Intro/Numerical Analy/Approxim (A) SP1436 28 85.7% 92.9% 6.79 B+ (3.46) B+ (3.53)
Leok, Melvin MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1412 7 71.4% 85.7% 6.83 B- (2.71) N/A
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1446 24 100.0% 100.0% 5.89 A- (3.71) B (3.05)
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP147 5 100.0% 100.0% 6.90 B+ (3.50) N/A
Schweinsberg, Jason MATH 180C - Intro/Stochastic Processes II (A) SP14101 53 96.2% 96.2% 9.35 B+ (3.48) B (3.09)
Bradic, Jelena MATH 181B - Intro/Math Statistics II (A) SP1434 16 87.5% 62.5% 8.38 B+ (3.50) B- (2.88)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP1429 15 100.0% 83.3% 6.67 B+ (3.58) B+ (3.43)
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP14143 55 94.1% 74.5% 4.14 B+ (3.66) B+ (3.57)
Roberts, Justin Deritter MATH 190 - Introduction to Topology (A) SP1428 12 91.7% 91.7% 8.33 B+ (3.60) B- (2.98)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (A) SP14143 51 83.3% 93.8% 6.21 B (3.00) C+ (2.32)
Gaddis, Jason MATH 20B - Calculus/Science & Engineering (A) SP14188 70 89.6% 80.6% 6.16 B- (2.98) C (2.27)
Kemp, Todd Aahron MATH 20B - Calculus/Science & Engineering (B) SP14185 72 82.4% 92.6% 6.68 B (3.17) C+ (2.43)
Conant, James R MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP14330 111 92.7% 98.2% 5.83 B+ (3.56) B- (2.91)
Pelletier, Bruno MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP14384 136 86.3% 32.8% 5.97 B (3.29) B- (2.73)
Sun, Hui MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) SP14224 87 96.4% 86.9% 5.54 B+ (3.62) B- (2.81)
Stevens, Laura Jeanne MATH 20D - Intro/Differential Equations (A) SP14309 139 96.9% 99.2% 6.47 B+ (3.48) B- (2.76)
Eggers, John Dietrich MATH 20D - Intro/Differential Equations (B) SP14320 109 71.0% 74.8% 6.24 B+ (3.35) C+ (2.62)
Gaddis, Jason MATH 20E - Vector Calculus (A) SP14274 89 89.0% 84.1% 6.35 B+ (3.53) B- (2.71)
Pelletier, Bruno MATH 20E - Vector Calculus (B) SP14203 58 71.9% 63.2% 6.75 B+ (3.45) B- (2.70)
Behzadan, Ali MATH 20F - Linear Algebra (A) SP14305 121 94.1% 94.9% 6.01 B+ (3.60) B (3.14)
Rabin, Jeffrey Mark MATH 20F - Linear Algebra (B) SP14322 101 84.8% 91.9% 5.90 B+ (3.36) C+ (2.59)
Harel, Guershon MATH 20F - Linear Algebra (C) SP14176 58 88.2% 60.8% 5.52 B+ (3.43) C+ (2.62)
Oprea, Dragos N. MATH 31CH - Honors Vector Calculus (A) SP1427 10 100.0% 100.0% 9.70 A- (3.80) B+ (3.51)
Bunch, James R. MATH 87 - Freshman Seminar (A) SP1417 14 100.0% 100.0% 0.50 N/A N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (B) SP1418 9 100.0% 100.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1424 13 100.0% 100.0% 1.58 A (4.00) A- (3.96)
Izadi, Elham MATH 100B - Abstract Algebra II (A) WI1419 10 100.0% 100.0% 10.25 B (3.00) N/A
Harel, Guershon MATH 102 - Applied Linear Algebra (A) WI1469 23 95.5% 86.4% 6.21 B+ (3.55) C (2.29)
Rhoades, Brendon Patrick MATH 103A - Modern Algebra I (A) WI1443 25 79.2% 87.5% 7.36 B (3.00) B- (2.84)
Martirosyan, Lilit MATH 103B - Modern Algebra II (A) WI1417 8 100.0% 57.1% 7.30 B- (2.80) N/A
Kedlaya, Kiran S. MATH 104B - Number Theory II (A) WI1410 4 75.0% 25.0% 7.00 A (4.00) N/A
Minnes Kemp, Mor Mia MATH 109 - Mathematical Reasoning (A) WI1489 43 86.0% 95.3% 8.36 B (3.13) B- (2.77)
Rhoades, Brendon Patrick MATH 109 - Mathematical Reasoning (B) WI1472 42 85.4% 97.6% 6.40 B+ (3.47) B- (2.91)
Gaddis, Jason MATH 10A - Calculus I (A) WI14196 137 92.9% 85.8% 5.44 B- (2.83) C (2.08)
Oliver, Jesus R MATH 10A - Calculus I (B) WI14173 109 92.4% 89.5% 5.24 B (3.18) B- (2.87)
Bowers, Adam R. MATH 10B - Calculus II (A) WI14342 174 92.3% 98.2% 5.77 B (3.20) C+ (2.63)
Bryan, Paul Anthony MATH 10B - Calculus II (B) WI14142 65 77.8% 31.7% 5.47 B (3.00) C+ (2.62)
Zhao, Yanxiang MATH 10B - Calculus II (C) WI14205 94 75.6% 57.8% 5.58 B (3.21) C+ (2.63)
Wong, Wiseley A MATH 10C - Calculus III (A) WI14270 142 88.6% 82.1% 5.74 B (3.26) C+ (2.39)
Briggs, Christopher Alan MATH 10C - Calculus III (B) WI14205 99 74.7% 68.4% 5.48 B (3.06) C+ (2.55)
Li, Bo MATH 110A - Intro/Partial Differ Equations (A) WI1448 18 82.4% 76.5% 8.04 B+ (3.44) B+ (3.34)
Meyer, David A. MATH 111B - Mathematical Modeling II (A) WI147 5 100.0% 100.0% 5.30 A (4.00) N/A
Wulbert, Daniel E. MATH 120A - Elements of Complex Analysis (A) WI1435 16 75.0% 81.3% 5.38 B+ (3.56) C+ (2.65)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1426 25 100.0% 100.0% 5.94 B+ (3.54) B (3.19)
Kemp, Todd Aahron MATH 140A - Foundations of Real Analysis I (B) WI1430 14 100.0% 100.0% 10.50 B+ (3.30) B- (2.81)
Ioana, Adrian MATH 140B - Foundations/Real Analysis II (A) WI1425 12 100.0% 100.0% 8.72 A- (3.75) C+ (2.42)
Rogalski, Daniel MATH 142A - Introduction to Analysis I (A) WI14105 39 84.2% 84.2% 7.26 B (3.14) B- (2.96)
Bejenaru, Ioan MATH 142B - Introduction to Analysis II (A) WI1428 13 100.0% 91.7% 8.33 B (3.27) B- (2.87)
Garsia, Adriano M. MATH 155A - Geometric Computer Graphics (A) WI1411 5 60.0% 60.0% 4.50 A- (3.80) N/A
Lovett, Shachar MATH 15A - Intro/Discrete Mathematics (A) WI14221 113 76.6% 43.0% 5.13 B+ (3.46) B- (2.87)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) WI1458 20 80.0% 85.0% 7.34 B+ (3.33) C+ (2.45)
Leok, Melvin MATH 170B - Intro/Numerical Analy/Approxim (A) WI1419 7 85.7% 100.0% 7.64 B (3.29) N/A
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI1469 28 92.3% 92.3% 5.78 A- (3.79) B+ (3.30)
Puha, Amber Lynn MATH 180A - Introduction to Probability (A) WI1465 33 81.3% 56.3% 7.38 B (3.03) C+ (2.41)
Schweinsberg, Jason MATH 180B - Intro/Stochastic Processes I (A) WI14108 58 96.4% 100.0% 9.63 B+ (3.56) B (3.07)
Xu, Ronghui MATH 181A - Intro/Math Statistics I (A) WI1457 23 73.9% 73.9% 7.02 B- (2.96) B- (2.77)
Pelletier, Bruno MATH 181A - Intro/Math Statistics I (B) WI1452 19 88.2% 70.6% 9.00 A- (3.71) B (3.04)
Arias-Castro, Ery MATH 181C - Math Statistics-Nonparametric (A) WI1410 5 75.0% 75.0% 5.00 B+ (3.67) N/A
Bowers, Adam R. MATH 183 - Statistical Methods (A) WI14297 237 81.1% 97.0% 6.36 B (3.07) B (3.01)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (B) WI1453 22 90.9% 77.3% 5.93 B+ (3.50) B- (2.89)
Puha, Amber Lynn MATH 194 - The Mathematics of Finance (A) WI1460 20 63.2% 57.9% 6.61 B+ (3.44) C+ (2.67)
Gaddis, Jason MATH 20A - Calculus/Science & Engineering (A) WI14192 85 81.9% 57.8% 6.55 B- (2.80) C- (1.87)
Meier, Caleb A MATH 20A - Calculus/Science & Engineering (B) WI14142 77 91.7% 94.4% 6.39 B (3.07) C+ (2.50)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) WI14393 211 85.2% 90.3% 6.29 B (3.10) C+ (2.45)
Conant, James R MATH 20B - Calculus/Science & Engineering (B) WI14191 103 81.6% 84.7% 6.10 B (3.30) B- (2.88)
Martirosyan, Lilit MATH 20B - Calculus/Science & Engineering (C) WI14133 60 82.5% 45.6% 5.88 B (3.04) B- (2.80)
Bryan, Paul Anthony MATH 20B - Calculus/Science & Engineering (D) WI14254 118 84.8% 37.5% 5.99 B+ (3.39) C+ (2.58)
Chow, Bennett MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI14212 116 90.4% 94.7% 5.22 B+ (3.48) B- (2.93)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI14398 200 90.6% 88.5% 6.25 B+ (3.35) C+ (2.62)
Bucur, Alina Ioana MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI14220 107 86.1% 64.4% 5.81 B (3.24) C+ (2.60)
Rabin, Jeffrey Mark MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI14335 182 88.4% 93.6% 5.12 B (3.16) C+ (2.51)
Chow, Bennett MATH 20D - Intro/Differential Equations (A) WI14324 154 91.0% 72.9% 5.23 B+ (3.41) B- (2.91)
Hall, James B MATH 20D - Intro/Differential Equations (B) WI14312 164 89.4% 92.5% 6.31 B+ (3.43) B- (2.98)
Wong, Wiseley A MATH 20E - Vector Calculus (A) WI14202 83 79.0% 66.7% 7.72 B (3.24) B- (2.87)
Lu, Shaoying MATH 20E - Vector Calculus (B) WI14122 42 73.8% 40.5% 6.06 B+ (3.60) B (3.02)
Saab, Rayan MATH 20E - Vector Calculus (C) WI14159 117 86.8% 96.5% 6.92 B+ (3.47) C+ (2.64)
Harel, Guershon MATH 20F - Linear Algebra (A) WI14322 118 95.7% 71.3% 5.72 B+ (3.66) C+ (2.65)
Eggers, John Dietrich MATH 20F - Linear Algebra (B) WI14389 140 90.8% 94.6% 6.56 B+ (3.55) C (2.27)
Pelletier, Bruno MATH 20F - Linear Algebra (C) WI14209 81 89.5% 47.4% 5.15 B+ (3.51) B- (2.96)
Oprea, Dragos N. MATH 31BH - Honors Multivariable Calculus (A) WI1432 15 100.0% 100.0% 9.03 B+ (3.67) B+ (3.48)
Kempton, Mark Condie MATH 3C - Precalculus (A) WI1481 33 90.0% 93.3% 4.91 B+ (3.38) B- (2.78)
Kasa, Michael Paul MATH 4C - Pre-calculus for Sci & Engn (A) WI1460 31 96.4% 85.7% 4.87 B (3.23) C- (1.97)
Bunch, James R. MATH 87 - Freshman Seminar (B) WI1416 14 100.0% 100.0% 0.50 A (4.00) N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (C) WI1419 11 100.0% 81.8% 0.50 N/A N/A
Rabin, Jeffrey Mark MATH 87 - Freshman Seminar (D) WI1412 6 83.3% 100.0% 1.17 N/A N/A
Harel, Guershon MATH 87 - Freshman Seminar (E) WI1412 7 100.0% 85.7% 1.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI1421 14 100.0% 100.0% 0.65 A (4.00) A (4.00)
Izadi, Elham MATH 100A - Abstract Algebra I (A) FA1339 15 85.7% 85.7% 7.64 B (3.14) C+ (2.56)
Stevens, Laura Jeanne MATH 102 - Applied Linear Algebra (A) FA13104 73 97.3% 100.0% 6.03 B+ (3.52) B- (2.79)
Zelmanov, Efim I MATH 103A - Modern Algebra I (A) FA1343 14 100.0% 84.6% 6.68 B (3.27) B- (2.90)
Bucur, Alina Ioana MATH 104A - Number Theory I (A) FA1334 12 83.3% 41.7% 7.33 B (3.08) C (2.21)
Popescu, Cristian D. MATH 109 - Mathematical Reasoning (A) FA1369 33 84.4% 90.6% 8.81 B (3.00) B- (2.75)
Bejenaru, Ioan MATH 109 - Mathematical Reasoning (B) FA1364 27 74.1% 84.6% 6.88 B (3.25) C+ (2.66)
Peng, Xing MATH 10A - Calculus I (A) FA13226 138 91.7% 61.7% 5.15 B (3.27) B- (2.77)
Bowers, Adam R. MATH 10A - Calculus I (B) FA13294 173 97.6% 100.0% 5.29 B+ (3.55) B- (2.75)
Martirosyan, Lilit MATH 10A - Calculus I (C) FA13170 102 81.0% 10.0% 5.88 B (3.20) C+ (2.51)
Gaddis, Jason MATH 10B - Calculus II (A) FA13283 172 88.1% 82.1% 4.92 B+ (3.48) C+ (2.35)
Briggs, Christopher Alan MATH 10B - Calculus II (B) FA13264 137 85.0% 73.7% 6.02 B (3.18) C+ (2.60)
Gaddis, Jason MATH 10C - Calculus III (A) FA13257 140 91.9% 77.8% 5.26 B+ (3.48) B- (2.73)
Oliver, Jesus R MATH 10C - Calculus III (B) FA13274 146 84.3% 56.4% 6.12 B+ (3.47) B- (2.87)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1325 15 93.3% 93.3% 4.07 B+ (3.47) A- (3.87)
Helton, John W. MATH 120A - Elements of Complex Analysis (A) FA1330 7 71.4% 28.6% 6.50 B (3.00) B (3.03)
Ioana, Adrian MATH 140A - Foundations of Real Analysis I (A) FA1345 14 92.9% 92.9% 8.93 B (3.08) B- (2.79)
Bejenaru, Ioan MATH 142A - Introduction to Analysis I (A) FA1331 11 81.8% 90.9% 8.10 B+ (3.40) C- (1.99)
Bryan, Paul Anthony MATH 150A - Differential Geometry (A) FA1313 8 87.5% 87.5% 6.00 B (3.13) N/A
Nie, Jiawang MATH 170A - Intro Numerical Analys/Linear (A) FA1392 36 94.4% 86.1% 7.72 B+ (3.64) B+ (3.40)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA1319 10 90.0% 90.0% 5.17 A- (3.88) N/A
Schweinsberg, Jason MATH 180A - Introduction to Probability (A) FA13137 65 96.8% 98.4% 9.22 B+ (3.50) B (3.03)
Bradic, Jelena MATH 183 - Statistical Methods (B) FA13169 60 65.5% 60.3% 9.63 B (3.17) B- (2.90)
Rhoades, Brendon Patrick MATH 184A - Combinatorics (A) FA1333 20 100.0% 94.7% 8.18 B (3.06) B- (2.99)
Stevens, Laura Jeanne MATH 20A - Calculus/Science & Engineering (A) FA13308 168 97.5% 98.1% 5.23 B+ (3.55) B- (2.72)
Saab, Rayan MATH 20A - Calculus/Science & Engineering (B) FA13209 119 97.4% 91.2% 5.69 B (3.12) C+ (2.53)
Hall, James B MATH 20A - Calculus/Science & Engineering (C) FA13236 138 94.1% 76.5% 5.84 B+ (3.41) C+ (2.62)
Rhoades, Brendon Patrick MATH 20A - Calculus/Science & Engineering (D) FA13213 133 99.2% 95.4% 5.69 B+ (3.56) B (3.02)
Sterbenz, Jacob MATH 20B - Calculus/Science & Engineering (A) FA13283 173 93.5% 88.7% 7.22 B+ (3.38) B- (2.77)
Bryan, Paul Anthony MATH 20B - Calculus/Science & Engineering (B) FA13242 145 85.9% 28.2% 5.67 B+ (3.43) B- (2.85)
Sorensen, Claus M MATH 20B - Calculus/Science & Engineering (C) FA13206 116 81.3% 24.1% 6.20 B (3.14) B (3.03)
Martirosyan, Lilit MATH 20B - Calculus/Science & Engineering (D) FA13198 108 76.8% 12.0% 6.30 B- (2.91) B- (2.75)
Oliver, Jesus R MATH 20B - Calculus/Science & Engineering (E) FA13192 101 85.4% 49.0% 6.44 B (3.18) C+ (2.69)
Wong, Wiseley A MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA13318 184 93.8% 82.6% 6.36 B+ (3.54) B- (2.86)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA13397 196 90.5% 93.7% 6.76 B+ (3.52) B (3.03)
Salehi Golsefidy, Alireza MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA13300 231 96.4% 96.4% 5.38 B+ (3.58) B- (2.90)
Verstraete, Jacques Allan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA13330 138 94.8% 100.0% 5.84 B+ (3.60) B+ (3.35)
Briggs, Christopher Alan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA13326 176 94.6% 74.1% 6.45 B+ (3.39) C+ (2.65)
Chow, Bennett MATH 20D - Intro/Differential Equations (A) FA13192 73 97.2% 60.6% 6.21 B+ (3.57) B (3.06)
Bowers, Adam R. MATH 20D - Intro/Differential Equations (B) FA13189 135 97.8% 99.3% 6.60 B+ (3.52) B (3.19)
Sun, Hui MATH 20D - Intro/Differential Equations (C) FA13234 97 91.6% 82.1% 5.81 B+ (3.44) B- (2.88)
Zhao, Yanxiang MATH 20D - Intro/Differential Equations (D) FA13116 56 94.4% 98.1% 6.16 B+ (3.69) B (3.06)
Bucur, Alina Ioana MATH 20E - Vector Calculus (A) FA13256 112 69.4% 25.0% 7.78 B (3.17) C+ (2.46)
Eggers, John Dietrich MATH 20E - Vector Calculus (B) FA13224 97 91.4% 97.8% 7.57 B+ (3.52) B (3.01)
Lu, Shaoying MATH 20F - Linear Algebra (A) FA13199 84 81.3% 22.5% 6.10 B+ (3.41) B (3.08)
Driver, Bruce K MATH 20F - Linear Algebra (B) FA13287 122 94.1% 90.7% 5.50 B+ (3.66) B (3.06)
Oprea, Dragos N. MATH 31AH - Honors Linear Algebra (A) FA1350 30 89.7% 96.6% 7.53 B+ (3.39) B+ (3.36)
Zimmermann, David Sawyer MATH 3C - Precalculus (A) FA13119 57 81.8% 89.1% 5.45 B (3.15) B- (2.70)
Kempton, Mark Condie MATH 3C - Precalculus (B) FA13117 71 97.1% 89.9% 5.51 B+ (3.45) B- (2.81)
Deotte, Chris G MATH 4C - Pre-calculus for Sci & Engn (A) FA13141 81 93.7% 94.9% 3.47 A- (3.83) B (3.12)
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (A) FA1318 14 92.3% 100.0% 1.58 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (B) FA1316 14 100.0% 100.0% 0.64 A (4.00) N/A
Lobue, Janine MATH 102 - Applied Linear Algebra (A) S21354 12 83.3% 91.7% 11.00 B (3.00) B- (2.71)
Briggs, Christopher Alan MATH 10B - Calculus II (A) S21339 10 90.0% 100.0% 9.10 B (3.11) C (2.23)
Walsh, Katherine P MATH 10C - Calculus III (A) S213108 28 92.3% 100.0% 6.42 B+ (3.42) B- (2.78)
Eggers, John Dietrich MATH 120A - Elements of Complex Analysis (A) S21330 6 80.0% 100.0% 8.90 B+ (3.60) C+ (2.57)
Bryan, Paul Anthony MATH 142B - Introduction to Analysis II (A) S21337 5 100.0% 80.0% 8.10 B (3.00) B (3.14)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21328 8 100.0% 100.0% 7.50 B+ (3.50) B (3.08)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21325 4 100.0% 100.0% 3.83 B+ (3.33) B+ (3.48)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S21329 6 100.0% 83.3% 9.17 B (3.00) B (3.11)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S213129 29 100.0% 100.0% 8.57 B+ (3.45) C+ (2.50)
Bryan, Paul Anthony MATH 20D - Intro/Differential Equations (A) S21354 11 90.9% 72.7% 9.23 A- (3.73) B (3.11)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) S213107 31 86.2% 89.7% 8.86 B+ (3.63) C+ (2.55)
Nie, Jiawang MATH 20F - Linear Algebra (A) S213151 40 89.5% 89.5% 8.56 A- (3.81) B+ (3.41)
Wen, Jiayi MATH 3C - Precalculus (A) S21321 7 66.7% 83.3% 7.50 B+ (3.40) C+ (2.53)
Stevens, Laura Jeanne MATH 109 - Mathematical Reasoning (A) S11344 15 93.3% 100.0% 8.64 B+ (3.50) B- (2.97)
Cheung, Man Wai MATH 10A - Calculus I (A) S11341 8 87.5% 62.5% 8.25 B (3.25) B- (2.77)
Mihalik, Adam John MATH 10B - Calculus II (A) S11350 10 88.9% 77.8% 10.50 C+ (2.50) B- (2.75)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) S11349 9 88.9% 100.0% 8.94 A- (3.86) B (3.01)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11330 7 80.0% 40.0% 4.90 B+ (3.40) B+ (3.50)
Harel, Guershon MATH 20A - Calculus/Science & Engineering (A) S11343 6 100.0% 100.0% 6.83 B (3.17) C- (1.71)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S11361 11 72.7% 81.8% 8.14 B- (2.91) B- (2.81)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S113144 35 88.2% 100.0% 8.74 B+ (3.38) C+ (2.59)
Briggs, Christopher Alan MATH 20D - Intro/Differential Equations (A) S11376 20 73.7% 94.7% 10.39 B (3.05) C+ (2.36)
Fadali, Lyla S MATH 20E - Vector Calculus (A) S11374 22 94.7% 84.2% 9.45 B+ (3.58) B- (2.73)
Hennig, Johanna Marie MATH 20F - Linear Algebra (A) S113102 37 80.0% 97.1% 11.30 B+ (3.31) C+ (2.59)
Bucur, Alina Ioana MATH 100C - Abstract Algebra III (A) SP139 5 100.0% 100.0% 5.50 B+ (3.40) N/A
Minnes Kemp, Mor Mia MATH 103B - Modern Algebra II (A) SP1333 11 100.0% 100.0% 7.23 B (3.00) B (3.03)
Verstraete, Jacques Allan MATH 104A - Number Theory I (A) SP1353 17 100.0% 100.0% 7.38 B+ (3.38) B- (2.73)
Lin, James P. MATH 109 - Mathematical Reasoning (A) SP1352 22 95.2% 71.4% 7.45 B+ (3.56) B (3.02)
Salehi Golsefidy, Alireza MATH 109 - Mathematical Reasoning (B) SP1336 16 87.5% 93.8% 7.17 B (3.00) B- (2.79)
Eggers, John Dietrich MATH 10A - Calculus I (A) SP13160 53 65.4% 65.4% 5.56 C+ (2.66) C (2.22)
Briggs, Christopher Alan MATH 10B - Calculus II (A) SP13190 70 88.6% 87.1% 6.09 B (3.24) C+ (2.56)
Leskow, Jacek MATH 10B - Calculus II (B) SP13134 54 75.9% 24.1% 5.33 B- (2.92) C (2.20)
Eggers, John Dietrich MATH 10C - Calculus III (A) SP13205 60 87.9% 89.7% 5.45 B+ (3.50) B- (2.77)
Hummon, Benjamin T MATH 10C - Calculus III (B) SP13285 101 87.5% 91.7% 4.82 B+ (3.51) B- (2.87)
Bowers, Adam R. MATH 11 - Calculus-Based Prob & Stats (A) SP13125 98 79.6% 94.9% 6.50 B+ (3.44) B- (2.81)
Evans, Ronald J. MATH 120B - Applied Complex Analysis (A) SP1317 9 100.0% 88.9% 7.17 B+ (3.44) N/A
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1330 19 100.0% 100.0% 6.18 B+ (3.44) B+ (3.40)
Li, Bo MATH 130B - Ordinary Differntl Equation II (A) SP138 5 100.0% 100.0% 7.30 A- (3.75) N/A
Oprea, Dragos N. MATH 140B - Foundations/Real Analysis II (A) SP1315 5 100.0% 100.0% 9.30 A- (3.75) N/A
Driver, Bruce K MATH 140C - Foundations/Real Analysis III (A) SP1320 8 100.0% 100.0% 6.75 B+ (3.63) B+ (3.65)
Ioana, Adrian MATH 142B - Introduction to Analysis II (A) SP1366 31 83.9% 93.5% 7.57 B+ (3.30) C+ (2.41)
Graham, Fan Chung MATH 152 - Applicable Math and Computing (A) SP1367 23 90.9% 63.6% 5.68 A- (3.71) B+ (3.43)
Stevens, Laura Jeanne MATH 153 - Geometry for Secondary Teacher (A) SP1335 21 95.2% 95.2% 6.98 B+ (3.53) B- (2.77)
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP1340 18 88.9% 66.7% 4.97 B+ (3.64) B (3.00)
Holst, Michael J MATH 170B - Intro/Numerical Analy/Approxim (A) SP1325 23 95.7% 100.0% 7.37 B+ (3.52) B+ (3.59)
Leok, Melvin MATH 170C - Intro Numerical Analy/Ord Diff (A) SP138 4 100.0% 100.0% 7.50 B+ (3.50) N/A
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1330 15 92.9% 92.9% 6.79 A- (3.86) B+ (3.59)
Fitzsimmons, Patrick J MATH 180C - Intro/Stochastic Processes II (A) SP1355 23 82.6% 87.0% 7.59 B (3.29) B- (2.94)
Bradic, Jelena MATH 181B - Intro/Mathemat Statistics II (A) SP1327 10 100.0% 100.0% 8.50 B+ (3.60) B+ (3.51)
Leskow, Jacek MATH 183 - Statistical Methods (A) SP13176 40 53.8% 38.5% 6.92 B- (2.88) C- (1.98)
Tesler, Glenn MATH 184A - Combinatorics (A) SP1360 23 81.8% 77.3% 5.93 B+ (3.32) B (3.08)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP1332 12 83.3% 83.3% 7.05 A- (3.70) B+ (3.65)
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP1391 29 92.6% 85.2% 4.20 A- (3.75) B (3.27)
Bowers, Adam R. MATH 194 - The Mathematics of Finance (A) SP13105 82 82.9% 87.8% 6.42 B+ (3.32) C+ (2.57)
Ni, Lei MATH 20A - Calculus/Science & Engineering (A) SP13105 42 68.3% 22.0% 7.47 C+ (2.41) C+ (2.49)
Lee, Seung W MATH 20B - Calculus/Science & Engineering (A) SP13301 89 86.5% 91.0% 6.32 B (3.07) C+ (2.66)
Zhao, Yanxiang MATH 20B - Calculus/Science & Engineering (B) SP13156 62 88.7% 90.3% 5.02 B- (2.95) C+ (2.66)
Meier, Caleb A MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP13217 87 77.0% 78.2% 6.33 B (3.10) B- (2.76)
Minor, Andre J MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP13391 145 85.5% 92.4% 6.75 B (3.26) B- (2.76)
Bryan, Paul Anthony MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP13289 105 61.8% 15.7% 6.58 B- (2.88) C (2.28)
Li, Bo MATH 20D - Intro/Differential Equations (A) SP13144 43 87.8% 68.3% 6.65 B (3.05) B- (2.87)
Bryan, Paul Anthony MATH 20D - Intro/Differential Equations (B) SP13163 64 69.8% 6.3% 6.47 B (3.16) B (3.06)
Minor, Andre J MATH 20D - Intro/Differential Equations (C) SP13203 91 96.7% 98.9% 7.19 B+ (3.66) B- (2.74)
Roberts, Justin Deritter MATH 20E - Vector Calculus (A) SP13154 40 76.3% 73.7% 6.45 B (3.22) B (3.16)
Bucur, Alina Ioana MATH 20E - Vector Calculus (B) SP13193 62 72.1% 72.1% 6.04 B (3.19) C (2.25)
Ioana, Adrian MATH 20F - Linear Algebra (A) SP13212 86 91.8% 97.6% 5.27 B+ (3.61) C+ (2.59)
Pollock, Sara N MATH 20F - Linear Algebra (B) SP13212 75 89.2% 87.8% 5.53 B+ (3.54) B- (2.86)
Guo, Feng MATH 20F - Linear Algebra (C) SP13254 72 70.8% 30.6% 5.92 B+ (3.31) B- (2.79)
Oprea, Dragos N. MATH 31CH - Honors Vector Calculus (A) SP1318 7 100.0% 100.0% 9.36 B+ (3.57) N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (A) SP1316 8 100.0% 100.0% 0.75 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1317 10 100.0% 100.0% 2.06 A- (3.78) N/A
Kolesnikov, Pavel MATH 100B - Abstract Algebra II (A) WI1319 9 100.0% 100.0% 5.61 B (3.22) N/A
Oprea, Dragos N. MATH 102 - Applied Linear Algebra (A) WI13115 44 93.2% 93.2% 5.93 B (3.28) B- (2.74)
Minnes Kemp, Mor Mia MATH 103A - Modern Algebra I (A) WI1340 17 94.1% 100.0% 7.56 B+ (3.31) B- (2.83)
Zelmanov, Efim I MATH 103B - Modern Algebra II (A) WI1322 9 88.9% 77.8% 7.17 B+ (3.38) B- (2.76)
Bucur, Alina Ioana MATH 104B - Number Theory II (A) WI1310 4 100.0% 100.0% 5.50 B (3.00) N/A
Popescu, Cristian D. MATH 109 - Mathematical Reasoning (A) WI1336 16 93.8% 93.8% 6.88 B+ (3.33) C+ (2.42)
Chow, Bennett MATH 109 - Mathematical Reasoning (B) WI1368 36 94.3% 88.6% 5.41 B+ (3.43) B (3.11)
Nelson, Christopher S MATH 10A - Calculus I (A) WI13206 171 90.5% 66.7% 5.21 B+ (3.34) C+ (2.69)
Lee, Seung W MATH 10A - Calculus I (B) WI13149 61 93.3% 91.7% 5.05 B+ (3.37) C+ (2.53)
Eggers, John Dietrich MATH 10B - Calculus II (A) WI13305 116 83.2% 80.5% 6.10 B (3.10) C+ (2.52)
Roberts, Justin Deritter MATH 10B - Calculus II (B) WI13136 46 84.1% 63.6% 6.03 B (3.02) B- (2.80)
Lee, Seung W MATH 10B - Calculus II (C) WI13114 43 90.5% 92.9% 5.09 B+ (3.36) C+ (2.48)
Schillewaert, Jeroen Jan MATH 10C - Calculus III (A) WI13118 53 96.2% 73.6% 4.77 B+ (3.33) B- (2.74)
Hummon, Benjamin T MATH 10C - Calculus III (B) WI13293 129 95.3% 79.5% 4.61 A- (3.75) B (3.23)
Wenzl, Hans G MATH 110B - Partial Diff Equa&Integral Equ (A) WI137 5 100.0% 80.0% 5.70 B+ (3.60) N/A
Evans, Ronald J. MATH 120A - Elements of Complex Analysis (A) WI1348 21 76.2% 85.7% 6.79 B (3.14) B- (2.86)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1328 18 94.4% 100.0% 4.26 B+ (3.56) B+ (3.30)
Wulbert, Daniel E. MATH 130A - Ordinary Differntl Equation I (A) WI1338 16 93.8% 68.8% 6.37 B+ (3.46) B- (2.72)
Li, Bo MATH 140A - Foundations of Real Analysis I (A) WI1321 13 100.0% 69.2% 8.65 C+ (2.69) B- (2.82)
Driver, Bruce K MATH 140B - Foundations/Real Analysis II (A) WI1327 10 80.0% 90.0% 7.70 B+ (3.50) B+ (3.30)
Ioana, Adrian MATH 142A - Introduction to Analysis I (A) WI1368 29 89.7% 96.6% 9.93 B (3.15) C+ (2.69)
Bryan, Paul Anthony MATH 142B - Introduction to Analysis II (A) WI1353 18 88.2% 64.7% 7.68 B+ (3.41) C+ (2.64)
Garsia, Adriano M. MATH 155A - Geometric Computer Graphics (A) WI1310 6 100.0% 100.0% 7.70 A- (3.80) N/A
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) WI1345 19 78.9% 84.2% 5.55 B (3.29) C+ (2.40)
Leok, Melvin MATH 170B - Intro/Numerical Analy/Approxim (A) WI1324 11 63.6% 72.7% 7.61 B+ (3.40) B+ (3.31)
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI1344 24 95.7% 87.0% 6.50 B+ (3.67) B+ (3.55)
Bank, Randolph E MATH 175 - Numerical Methods for PDE (A) WI134 4 25.0% 50.0% 6.00 B (3.00) N/A
Schweinsberg, Jason MATH 180A - Introduction to Probability (A) WI1381 47 97.9% 100.0% 7.63 B+ (3.38) B- (2.87)
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (A) WI1373 37 97.3% 91.9% 6.11 B+ (3.46) B- (2.93)
Xu, Ronghui MATH 181A - Intro/Mathemat Statistics I (A) WI1360 25 100.0% 96.0% 5.28 B+ (3.45) B- (2.93)
Bradic, Jelena MATH 183 - Statistical Methods (A) WI13184 151 52.7% 50.7% 8.62 B- (2.91) B- (2.87)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1345 18 94.1% 100.0% 5.50 B (3.25) B (3.05)
Roberts, Justin Deritter MATH 191 - Topics In Topology (A) WI1311 6 100.0% 100.0% 6.90 B (3.00) N/A
Hummon, Benjamin T MATH 20A - Calculus/Science & Engineering (A) WI13194 82 85.2% 79.0% 6.47 B- (2.89) C+ (2.43)
Nelson, Christopher S MATH 20A - Calculus/Science & Engineering (B) WI13172 134 91.7% 72.9% 5.75 B (3.18) C+ (2.68)
Pollock, Sara N MATH 20B - Calculus/Science & Engineering (A) WI13124 53 94.2% 90.4% 4.77 B+ (3.30) C+ (2.52)
Salehi Golsefidy, Alireza MATH 20B - Calculus/Science & Engineering (B) WI13156 64 92.2% 81.3% 6.11 B+ (3.30) C+ (2.53)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (C) WI13401 283 91.8% 100.0% 6.01 B (3.28) C+ (2.44)
Rhoades, Brendon Patrick MATH 20B - Calculus/Science & Engineering (D) WI13297 129 95.2% 86.5% 5.77 B+ (3.43) C+ (2.66)
Agler, Jim MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI13229 109 83.8% 38.1% 6.35 B- (2.93) B- (2.89)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI13399 167 88.4% 89.6% 6.36 B (3.21) B (3.05)
Helton, John W. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI13125 53 79.2% 30.2% 6.12 B (3.16) B- (2.78)
Minor, Andre J MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI13287 143 92.1% 99.3% 6.24 B+ (3.34) B- (2.80)
Kolesnikov, Pavel MATH 20D - Intro/Differential Equations (A) WI13202 82 90.2% 89.0% 6.28 B (3.22) B- (2.79)
Bowers, Adam R. MATH 20D - Intro/Differential Equations (B) WI13400 310 95.8% 98.4% 5.69 B+ (3.63) C+ (2.60)
Meier, Caleb A MATH 20E - Vector Calculus (A) WI1383 38 78.9% 81.6% 7.30 B (3.19) B- (2.90)
Minor, Andre J MATH 20E - Vector Calculus (B) WI13201 92 87.8% 100.0% 6.72 B+ (3.42) B- (2.98)
Wenzl, Hans G MATH 20E - Vector Calculus (C) WI13101 40 76.9% 66.7% 6.71 B (3.22) B- (2.79)
Schillewaert, Jeroen Jan MATH 20F - Linear Algebra (A) WI13288 125 82.1% 62.6% 6.33 B (3.18) C+ (2.59)
Peng, Xing MATH 20F - Linear Algebra (B) WI13139 100 90.7% 58.8% 5.24 B+ (3.33) B- (2.71)
Nie, Jiawang MATH 20F - Linear Algebra (C) WI13263 113 90.1% 91.0% 6.08 A- (3.74) B (3.20)
Rabin, Jeffrey Mark MATH 31BH - Honors Multivariable Calculus (A) WI1322 11 81.8% 100.0% 9.05 B+ (3.45) B+ (3.54)
Compeau, Phillip Edward Charles MATH 3C - Precalculus (A) WI1380 35 73.5% 70.6% 6.98 B- (2.92) C+ (2.39)
Lobue, Janine MATH 4C - Pre-calculus for Sci & Engn (A) WI1351 22 81.0% 76.2% 4.88 B (3.00) C+ (2.33)
Haff, Leonard R. MATH 87 - Freshman Seminar (A) WI1318 9 87.5% 100.0% 2.00 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (B) WI1316 10 100.0% 90.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (C) WI1313 9 100.0% 100.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI1323 16 100.0% 93.8% 2.88 A- (3.93) A- (3.81)
Gross, Mark W. MATH 100A - Abstract Algebra I (A) FA1235 16 93.3% 100.0% 9.03 B+ (3.33) C+ (2.65)
Soltys-Kulinicz, Michael MATH 102 - Applied Linear Algebra (A) FA1296 42 75.7% 86.5% 6.18 B (3.29) B- (2.83)
Rogalski, Daniel MATH 103A - Modern Algebra I (A) FA1229 14 78.6% 100.0% 10.36 B+ (3.38) B- (2.87)
Rhoades, Brendon Patrick MATH 104A - Number Theory I (A) FA1223 12 81.8% 100.0% 7.41 B (3.10) B (3.27)
Agler, Jim MATH 109 - Mathematical Reasoning (A) FA1255 26 82.6% 87.0% 8.07 B+ (3.33) C+ (2.61)
Lin, James P. MATH 109 - Mathematical Reasoning (B) FA1270 23 90.5% 71.4% 8.00 B+ (3.35) C+ (2.48)
Stevens, Laura Jeanne MATH 10A - Calculus I (A) FA12289 119 95.7% 100.0% 6.02 B+ (3.36) C+ (2.67)
Minsky, Daniel A MATH 10A - Calculus I (B) FA12190 82 82.9% 50.0% 5.25 B (3.08) C+ (2.52)
Schillewaert, Jeroen Jan MATH 10A - Calculus I (C) FA12155 70 76.6% 50.0% 4.59 B (3.12) C+ (2.58)
Pollock, Sara N MATH 10B - Calculus II (A) FA12187 99 95.7% 83.0% 5.12 B (3.30) B- (2.97)
Bowers, Adam R. MATH 10B - Calculus II (B) FA12295 220 92.4% 97.2% 5.50 B+ (3.30) C+ (2.62)
Hummon, Benjamin T MATH 10C - Calculus III (A) FA12219 92 83.5% 89.4% 5.22 B+ (3.32) B- (2.79)
Lee, Seung W MATH 10C - Calculus III (B) FA12254 97 92.5% 88.3% 4.83 B+ (3.69) C+ (2.59)
Bejenaru, Ioan MATH 110A - Intro/Partial Differ Equations (A) FA1245 25 68.2% 72.7% 8.68 B (3.10) C+ (2.57)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1239 25 87.5% 95.8% 5.50 B+ (3.45) A- (3.80)
Helton, John W. MATH 120A - Elements of Complex Analysis (A) FA1225 10 100.0% 88.9% 5.17 B (3.25) B (3.13)
Driver, Bruce K MATH 140A - Foundations of Real Analysis I (A) FA1234 18 88.9% 88.9% 9.50 B+ (3.50) B (3.03)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) FA1286 35 93.3% 100.0% 7.05 B+ (3.31) B- (2.88)
Bryan, Paul Anthony MATH 150A - Differential Geometry (A) FA1211 5 80.0% 60.0% 8.10 B (3.25) N/A
Minnes Kemp, Mor Mia MATH 154 - Discrete Math & Graph Theory (A) FA1233 16 93.8% 100.0% 7.75 B (3.29) B (3.11)
Nie, Jiawang MATH 170A - Intro Numerical Analys/Linear (A) FA1281 36 88.2% 85.3% 7.47 B+ (3.64) B+ (3.44)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA1219 9 85.7% 85.7% 7.93 B+ (3.43) N/A
Fitzsimmons, Patrick J MATH 180A - Introduction to Probability (A) FA12121 45 92.5% 87.5% 6.40 B+ (3.60) B- (2.87)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (A) FA1225 16 93.8% 87.5% 10.37 A- (3.88) A- (3.95)
Roberts, Justin Deritter MATH 190 - Introduction to Topology (A) FA1221 11 100.0% 100.0% 7.41 B+ (3.45) B (3.20)
Zhao, Yanxiang MATH 20A - Calculus/Science & Engineering (A) FA12205 103 94.9% 86.7% 5.63 B+ (3.35) C+ (2.41)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (B) FA12330 154 93.8% 91.1% 6.04 B (3.24) C+ (2.39)
Kenter, Franklin Hardin Jones MATH 20A - Calculus/Science & Engineering (C) FA12211 96 94.2% 89.5% 6.17 B+ (3.51) C+ (2.62)
Nguyen, Nicholas D MATH 20A - Calculus/Science & Engineering (D) FA12169 91 97.6% 84.7% 5.57 B (3.23) C+ (2.63)
Hughes, Jacob T MATH 20B - Calculus/Science & Engineering (A) FA12212 169 95.7% 98.2% 5.50 B+ (3.47) C+ (2.58)
Peng, Xing MATH 20B - Calculus/Science & Engineering (B) FA12189 106 90.5% 10.5% 7.37 B (3.02) C (2.19)
Minor, Andre J MATH 20B - Calculus/Science & Engineering (C) FA12206 86 95.2% 97.6% 6.48 B+ (3.44) B- (2.77)
Bowers, Adam R. MATH 20B - Calculus/Science & Engineering (D) FA12291 230 91.2% 97.7% 6.66 B (3.26) C+ (2.53)
Nelson, Christopher S MATH 20B - Calculus/Science & Engineering (E) FA12149 68 80.0% 46.7% 6.23 B+ (3.47) B- (2.70)
Lin, James P. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA12313 151 88.8% 60.8% 6.79 B (3.23) C+ (2.57)
Minor, Andre J MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA12227 96 92.6% 97.9% 6.69 B+ (3.42) B- (2.77)
Lee, Seung W MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA12291 131 92.0% 88.8% 5.69 B+ (3.46) C+ (2.53)
Jones, Miles E MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA12235 129 94.1% 96.6% 6.89 B+ (3.53) B (3.19)
Briggs, Christopher Alan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) FA12275 137 82.0% 58.6% 7.84 B (3.01) C+ (2.45)
Meier, Caleb A MATH 20D - Intro/Differential Equations (A) FA12138 60 89.5% 86.0% 7.32 B+ (3.35) B- (2.83)
Bejenaru, Ioan MATH 20D - Intro/Differential Equations (B) FA12203 121 82.1% 47.0% 7.94 B (3.22) B- (2.81)
Jones, Miles E MATH 20D - Intro/Differential Equations (C) FA12216 83 87.3% 97.5% 6.63 B+ (3.37) B- (2.79)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) FA12204 75 92.6% 91.2% 7.53 B+ (3.45) C+ (2.46)
Schillewaert, Jeroen Jan MATH 20E - Vector Calculus (B) FA12206 93 84.3% 78.7% 6.76 B+ (3.44) C (2.30)
Stevens, Laura Jeanne MATH 20F - Linear Algebra (A) FA12334 151 86.6% 89.4% 6.32 B+ (3.48) B- (2.75)
Kemp, Todd Aahron MATH 20F - Linear Algebra (B) FA12181 69 89.2% 90.8% 6.25 B (3.25) B- (2.75)
Rabin, Jeffrey Mark MATH 31AH - Honors Linear Algebra (A) FA1236 25 83.3% 100.0% 8.50 B (3.22) B (3.18)
Walsh, Katherine P MATH 3C - Precalculus (A) FA12107 64 93.3% 90.0% 5.16 B+ (3.40) B- (2.87)
Banham, Timothy S MATH 3C - Precalculus (B) FA1291 76 98.7% 92.0% 5.95 B (3.29) B- (2.79)
Wilson, Benjamin E MATH 4C - Pre-calculus for Sci & Engn (A) FA12147 62 84.2% 87.7% 4.50 B- (2.98) C (2.27)
Harel, Guershon MATH 87 - Freshman Seminar (A) FA1214 6 100.0% 100.0% 0.90 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (B) FA1220 16 93.3% 93.3% 0.77 A (4.00) N/A
Cheng, Hsiao-Bing MATH 102 - Applied Linear Algebra (A) S21250 12 91.7% 75.0% 10.68 B+ (3.58) C+ (2.55)
Mir, Nordine MATH 109 - Mathematical Reasoning (A) S21248 14 84.6% 69.2% 9.88 B+ (3.31) C (2.28)
Lobue, Janine MATH 10B - Calculus II (A) S21242 11 72.7% 90.9% 9.59 B (3.09) C+ (2.59)
Eggers, John Dietrich MATH 10C - Calculus III (A) S212103 16 75.0% 93.8% 9.88 B- (2.94) B- (2.74)
Cheng, Hsiao-Bing MATH 142B - Introduction to Analysis II (A) S21238 15 73.3% 73.3% 10.93 B (3.29) C+ (2.33)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21225 10 100.0% 100.0% 7.70 B+ (3.40) B- (2.96)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21227 7 85.7% 71.4% 9.64 B+ (3.33) B (3.10)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S21251 17 94.1% 88.2% 8.03 B (3.13) B- (2.91)
Meredith, Michael B MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S212103 29 82.8% 86.2% 9.81 B+ (3.36) B- (2.74)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) S212137 39 87.2% 97.4% 10.66 B (3.22) C+ (2.63)
Harel, Guershon MATH 20F - Linear Algebra (A) S212114 30 93.3% 90.0% 9.53 B+ (3.46) B- (2.94)
Briggs, Christopher Alan MATH 3C - Precalculus (A) S21226 10 50.0% 70.0% 10.70 B (3.00) B- (2.72)
Louie, Janelle MATH 10A - Calculus I (A) S11255 16 87.5% 81.3% 7.88 B (3.13) B- (2.80)
White, Michael R MATH 10B - Calculus II (A) S11263 14 71.4% 85.7% 8.36 B (3.00) B- (2.71)
Fitzgerald, Carl H. MATH 110A - Intro/Partial Differ Equations (A) S11218 8 87.5% 50.0% 11.50 B+ (3.50) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) S11232 13 83.3% 69.2% 9.67 B+ (3.45) B (3.20)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) S11267 23 95.7% 100.0% 9.28 B+ (3.70) B- (2.98)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11261 14 78.6% 64.3% 8.19 B+ (3.58) B (3.08)
Shenk, Norman A. MATH 20A - Calculus/Science & Engineering (A) S11256 9 88.9% 66.7% 5.39 B (3.13) B- (2.84)
Hyatt, Matthew Duane MATH 20B - Calculus/Science & Engineering (A) S112100 29 86.2% 100.0% 7.79 B (3.21) C+ (2.46)
Hyatt, Matthew Duane MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S112139 43 95.3% 90.7% 8.74 B+ (3.50) B- (2.90)
Walsh, Katherine P MATH 20D - Intro/Differential Equations (A) S112113 53 90.4% 92.3% 11.12 A- (3.71) B (3.07)
Nie, Jiawang MATH 20F - Linear Algebra (A) S112117 31 100.0% 82.8% 9.23 B+ (3.65) B+ (3.35)
Popescu, Cristian D. MATH 100C - Abstract Algebra III (A) SP1217 9 100.0% 100.0% 10.06 B+ (3.33) N/A
Minor, Andre J MATH 103B - Modern Algebra II (A) SP1226 13 76.9% 100.0% 8.96 B (3.00) B- (2.82)
Wenzl, Hans G MATH 104C - Number Theory III (A) SP128 5 75.0% 50.0% 4.10 B+ (3.60) N/A
Gross, Mark W. MATH 109 - Mathematical Reasoning (A) SP1257 27 85.2% 100.0% 6.35 B (3.15) C+ (2.59)
Cheng, Li-Tien MATH 109 - Mathematical Reasoning (B) SP1266 26 88.5% 100.0% 6.96 B+ (3.48) C+ (2.61)
Lou, Yifei MATH 10A - Calculus I (A) SP12189 88 65.5% 21.8% 6.78 B- (2.83) B- (2.80)
Stern, Ari MATH 10B - Calculus II (A) SP12114 54 88.9% 96.3% 5.80 B (3.08) C+ (2.60)
Verstraete, Jacques Allan MATH 10B - Calculus II (B) SP12208 80 70.0% 65.8% 6.95 B- (2.95) C+ (2.48)
Eggers, John Dietrich MATH 10C - Calculus III (A) SP12285 125 83.9% 88.7% 5.87 B (3.06) C (2.26)
Vankerschaver, Joris G MATH 10C - Calculus III (B) SP12159 62 82.0% 86.7% 4.64 B (3.26) C+ (2.43)
Arias-Castro, Ery MATH 11 - Calculus-Based Prob & Stats (A) SP12118 59 66.1% 42.4% 7.38 B (3.10) B- (2.99)
Zhang, Yuan MATH 110B - Partial Diff Equa&Integral Equ (A) SP1210 7 100.0% 100.0% 8.21 B+ (3.50) N/A
Zhang, Yuan MATH 120B - Applied Complex Analysis (A) SP1226 10 70.0% 80.0% 9.90 B (3.10) B (3.25)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1217 14 100.0% 100.0% 5.07 B+ (3.50) N/A
Meyer, David A. MATH 130B - Ordinary Differntl Equation II (A) SP128 6 83.3% 83.3% 8.50 B- (2.80) N/A
Sterbenz, Jacob MATH 140B - Foundations/Real Analysis II (A) SP1211 5 100.0% 80.0% 12.90 B+ (3.60) N/A
Li, Bo MATH 140C - Foundations/Real Analysis III (A) SP1214 8 87.5% 75.0% 8.75 B+ (3.43) N/A
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) SP1257 24 78.3% 95.7% 8.67 B- (2.96) B (3.01)
Stevens, Laura Jeanne MATH 153 - Geometry for Secondary Teacher (A) SP1258 31 96.8% 100.0% 8.11 B (3.23) C+ (2.68)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) SP1261 24 91.3% 100.0% 7.37 B+ (3.33) B+ (3.40)
Minnes Kemp, Mor Mia MATH 160B - Elementary Math Logic II (A) SP128 4 100.0% 100.0% 5.00 A (4.00) N/A
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP1273 32 71.0% 36.7% 5.75 B (3.14) B- (2.71)
Holst, Michael J MATH 170B - Intro/Numerical Analy/Approxim (A) SP1228 21 75.0% 90.0% 8.90 B+ (3.33) B+ (3.39)
Holst, Michael J MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1217 15 73.3% 73.3% 6.10 B+ (3.36) N/A
Schweinsberg, Jason MATH 180C - Intro/Stochastic Processes II (A) SP1249 22 100.0% 86.4% 9.77 B- (2.89) B (3.01)
Bradic, Jelena MATH 181B - Intro/Mathemat Statistics II (A) SP1230 17 87.5% 81.3% 11.68 B (3.20) B+ (3.30)
Bowers, Adam R. MATH 183 - Statistical Methods (A) SP12213 194 89.7% 98.5% 5.55 B+ (3.41) C+ (2.67)
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP12112 42 83.3% 69.0% 3.67 B+ (3.39) B (3.07)
Hyatt, Matthew Duane MATH 20A - Calculus/Science & Engineering (A) SP12132 50 91.7% 87.5% 6.54 B- (2.71) C (2.27)
Hyatt, Matthew Duane MATH 20B - Calculus/Science & Engineering (A) SP12204 85 86.7% 80.5% 6.91 B- (2.99) C+ (2.41)
Vankerschaver, Joris G MATH 20B - Calculus/Science & Engineering (B) SP12170 66 87.9% 89.4% 7.70 B (3.11) C+ (2.52)
Bowers, Adam R. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP12266 124 91.1% 98.4% 6.87 B (3.26) C+ (2.44)
Slawinski, Michael A. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP12119 46 75.6% 46.7% 7.05 B (3.00) C+ (2.43)
Minor, Andre J MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP12289 134 91.0% 93.9% 7.01 B+ (3.35) B- (2.88)
Ioana, Adrian MATH 20D - Intro/Differential Equations (A) SP12226 103 87.0% 90.0% 6.82 B+ (3.40) B- (2.83)
Ohsawa, Tomoki MATH 20D - Intro/Differential Equations (B) SP12270 125 95.9% 97.5% 6.42 B+ (3.67) B- (3.00)
Gillette, Andrew Kruse MATH 20E - Vector Calculus (A) SP12198 125 90.4% 93.5% 6.34 B+ (3.43) B- (2.75)
Roberts, Justin Deritter MATH 20E - Vector Calculus (B) SP12133 39 57.9% 40.5% 7.45 B (3.11) B- (2.82)
Cheng, Li-Tien MATH 20F - Linear Algebra (A) SP12208 74 83.6% 86.3% 5.79 B+ (3.34) C+ (2.52)
Saxena, Rishu MATH 20F - Linear Algebra (B) SP12315 142 81.6% 34.0% 6.37 B (3.29) B- (2.90)
Rabin, Jeffrey Mark MATH 31CH - Honors Vector Calculus (A) SP127 4 100.0% 100.0% 9.00 B+ (3.50) N/A
Bunch, James R. MATH 87 - Freshman Seminar (A) SP1218 8 100.0% 100.0% 0.75 N/A N/A
Harel, Guershon MATH 87 - Freshman Seminar (C) SP1210 7 100.0% 100.0% 3.93 N/A N/A
Rabin, Jeffrey Mark MATH 87 - Freshman Seminar (D) SP1210 9 100.0% 100.0% 2.50 N/A N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (F) SP1216 9 100.0% 100.0% 0.94 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1217 10 90.0% 100.0% 2.70 A (4.00) N/A
Evans, Ronald J. MATH 100B - Abstract Algebra II (A) WI1240 23 91.3% 91.3% 8.41 B (3.13) B (3.12)
Popescu, Cristian D. MATH 102 - Applied Linear Algebra (A) WI1294 43 88.4% 86.0% 5.85 B (3.21) B- (2.77)
Rothschild, Linda Preiss MATH 103A - Modern Algebra I (A) WI1232 14 92.9% 78.6% 7.36 B (3.07) C+ (2.52)
Salehi Golsefidy, Alireza MATH 103B - Modern Algebra II (A) WI129 4 100.0% 75.0% 9.00 B- (2.75) N/A
Bucur, Alina Ioana MATH 104B - Number Theory II (A) WI1213 7 85.7% 100.0% 5.93 B- (2.86) N/A
Chow, Bennett MATH 109 - Mathematical Reasoning (A) WI1273 31 93.5% 93.5% 6.56 B+ (3.48) B (3.30)
Slawinski, Michael A. MATH 109 - Mathematical Reasoning (B) WI1229 13 76.9% 92.3% 7.73 B- (2.85) C (2.27)
Zhao, Yanxiang MATH 10A - Calculus I (A) WI12141 67 83.3% 75.4% 5.67 B- (2.90) B- (2.85)
Hyatt, Matthew Duane MATH 10A - Calculus I (B) WI12204 103 91.2% 96.1% 5.58 B (3.16) C+ (2.40)
Ohsawa, Tomoki MATH 10B - Calculus II (A) WI12209 113 90.8% 78.5% 5.95 B (3.17) C+ (2.56)
Bowers, Adam R. MATH 10B - Calculus II (B) WI12202 111 86.4% 96.4% 6.55 B (3.09) C+ (2.33)
Roberts, Justin Deritter MATH 10B - Calculus II (C) WI12125 48 77.1% 62.5% 6.29 B (3.11) C+ (2.43)
Hyatt, Matthew Duane MATH 10C - Calculus III (A) WI12280 132 93.1% 97.7% 6.17 B+ (3.43) B- (2.94)
Kwan, Yuen Yick MATH 10C - Calculus III (C) WI12135 105 82.7% 78.6% 5.53 B (3.06) B- (2.82)
Zhang, Yuan MATH 110A - Intro/Partial Differ Equations (A) WI1239 26 84.6% 80.8% 5.94 B+ (3.44) B- (2.83)
Kedlaya, Kiran S. MATH 120A - Elements of Complex Analysis (A) WI1244 24 95.8% 79.2% 5.83 B+ (3.57) C+ (2.65)
Harel, Guershon MATH 121A - Found of Teachg/Learng Math I (A) WI1231 21 90.5% 71.4% 7.36 B+ (3.40) B- (2.82)
Wulbert, Daniel E. MATH 130A - Ordinary Differntl Equation I (A) WI1248 25 95.8% 68.0% 7.54 B+ (3.48) C+ (2.62)
Sterbenz, Jacob MATH 140A - Foundations of Real Analysis I (A) WI1227 10 80.0% 60.0% 11.50 C (2.00) C (2.16)
Li, Bo MATH 140B - Foundations/Real Analysis II (A) WI1214 6 100.0% 83.3% 9.83 A- (3.80) N/A
Ioana, Adrian MATH 142A - Introduction to Analysis I (A) WI1270 28 77.8% 96.3% 7.98 B- (2.85) B- (2.81)
Stern, Ari MATH 142B - Introduction to Analysis II (A) WI1246 17 88.2% 100.0% 9.09 B (3.18) B (3.03)
Rabin, Jeffrey Mark MATH 150B - Calculus on Manifolds (A) WI129 5 100.0% 100.0% 6.90 B+ (3.40) N/A
Buss, Samuel R MATH 155A - Geometric Computer Graphics (A) WI1211 6 100.0% 100.0% 5.83 B+ (3.60) N/A
Minnes Kemp, Mor Mia MATH 160A - Elementary Math Logic I (A) WI1224 12 81.8% 91.7% 6.83 B+ (3.40) B (3.24)
Holst, Michael J MATH 170A - Intro Numerical Analys/Linear (A) WI1247 37 75.7% 91.9% 8.28 B (3.09) B+ (3.45)
Cheng, Li-Tien MATH 170B - Intro/Numerical Analy/Approxim (A) WI1220 12 91.7% 100.0% 7.00 B+ (3.42) B (3.07)
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prog (A) WI1238 12 83.3% 66.7% 6.83 B (3.08) B+ (3.37)
Verstraete, Jacques Allan MATH 180A - Introduction to Probability (A) WI1259 23 100.0% 100.0% 6.59 B+ (3.52) C+ (2.68)
Schweinsberg, Jason MATH 180B - Intro/Stochastic Processes I (A) WI1264 30 100.0% 93.3% 9.19 B+ (3.32) B- (2.98)
Schweinsberg, Jason MATH 181A - Intro/Mathemat Statistics I (A) WI1279 39 92.3% 89.7% 9.17 B+ (3.33) B- (2.94)
Bowers, Adam R. MATH 183 - Statistical Methods (A) WI12183 161 87.5% 99.4% 5.33 B+ (3.47) C+ (2.49)
Tesler, Glenn MATH 184A - Combinatorics (A) WI1224 15 100.0% 93.3% 6.77 B+ (3.50) B (3.04)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) WI1212 7 71.4% 100.0% 9.36 A- (3.83) N/A
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1236 12 63.6% 54.5% 9.23 B (3.00) B- (2.75)
Williams, Ruth J MATH 194 - The Mathematics of Finance (A) WI1247 20 95.0% 100.0% 6.60 A- (3.94) B (3.11)
Minor, Andre J MATH 20A - Calculus/Science & Engineering (A) WI12277 119 94.0% 85.6% 6.45 B (3.21) B- (2.70)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) WI12286 142 88.7% 75.0% 7.12 B (3.23) C+ (2.45)
Slawinski, Michael A. MATH 20B - Calculus/Science & Engineering (B) WI12197 86 81.2% 43.5% 7.15 B- (2.91) C- (1.94)
Louie, Janelle MATH 20B - Calculus/Science & Engineering (C) WI12284 119 82.1% 37.6% 7.39 B (3.09) C+ (2.63)
Lee, Seung W MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI12191 94 82.4% 34.4% 7.20 B (3.11) C+ (2.49)
Fadali, Lyla S MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI12292 246 92.2% 69.5% 5.71 B+ (3.46) B- (2.87)
Banham, Timothy S MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI12216 133 96.2% 100.0% 6.29 B+ (3.62) B- (2.82)
Hughes, Jacob T MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI12176 120 90.8% 98.3% 6.30 B+ (3.60) B- (2.76)
Wong, Elizabeth Lai Sum MATH 20D - Intro/Differential Equations (A) WI12276 132 89.9% 72.1% 7.18 B+ (3.40) C+ (2.60)
Jones, Miles E MATH 20D - Intro/Differential Equations (B) WI12194 86 87.2% 91.9% 7.76 B+ (3.34) C+ (2.60)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) WI12187 96 90.5% 100.0% 7.05 B+ (3.61) B- (2.93)
Bucicovschi, Orest MATH 20E - Vector Calculus (B) WI12139 55 78.2% 64.8% 6.43 B+ (3.42) B- (2.87)
Lou, Yifei MATH 20F - Linear Algebra (A) WI12199 99 87.8% 32.3% 6.96 B (3.27) B- (2.73)
Saxena, Rishu MATH 20F - Linear Algebra (B) WI12192 90 86.5% 42.7% 5.47 B+ (3.38) B- (2.99)
Minor, Andre J MATH 20F - Linear Algebra (C) WI12245 111 90.1% 91.0% 7.00 B+ (3.64) B- (2.93)
Rabin, Jeffrey Mark MATH 31BH - Honors Multivariable Calculus (A) WI128 5 100.0% 100.0% 11.70 B+ (3.50) N/A
Duane, Adrian Scott Campe MATH 3C - Precalculus (A) WI12141 66 77.3% 86.4% 7.11 B- (2.74) C+ (2.60)
Hummon, Benjamin T MATH 4C - Pre-calculus for Sci & Engn (A) WI1278 33 90.9% 84.8% 5.17 B- (2.94) C (2.22)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1216 10 100.0% 100.0% 0.50 A (4.00) N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (B) WI1217 8 100.0% 100.0% 0.75 A (4.00) N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (C) WI1220 11 100.0% 100.0% 0.86 A (4.00) N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI128 5 80.0% 50.0% 8.00 B (3.20) N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI128 5 80.0% 80.0% 3.70 A- (3.75) N/A
Evans, Ronald J. MATH 100A - Abstract Algebra I (A) FA1153 24 91.7% 91.7% 8.15 B (3.13) B (3.16)
Gross, Mark W. MATH 102 - Applied Linear Algebra (A) FA1191 48 93.8% 100.0% 5.83 B+ (3.34) C+ (2.58)
Wenzl, Hans G MATH 103A - Modern Algebra I (A) FA1115 6 100.0% 66.7% 8.17 B+ (3.33) N/A
Stark, Harold M MATH 104A - Number Theory I (A) FA1145 24 82.6% 56.5% 7.02 B (3.13) B (3.08)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) FA1156 32 78.1% 80.6% 6.94 B (3.13) B (3.10)
Salehi Golsefidy, Alireza MATH 109 - Mathematical Reasoning (B) FA1187 44 61.4% 54.5% 9.86 C+ (2.55) C (2.23)
Eggers, John Dietrich MATH 10A - Calculus (A) FA11291 150 91.3% 93.3% 4.90 B+ (3.42) C+ (2.68)
Minnes Kemp, Mor Mia MATH 10A - Calculus (B) FA11198 124 96.7% 95.9% 5.12 B+ (3.45) C+ (2.66)
Parrish, Andrew T MATH 10A - Calculus (C) FA11123 91 92.3% 64.0% 4.81 B+ (3.41) B- (2.79)
Kwan, Yuen Yick MATH 10B - Calculus (B) FA11185 156 87.2% 63.5% 5.17 B (3.29) C+ (2.64)
Hyatt, Matthew Duane MATH 10B - Calculus (C) FA11194 98 92.9% 95.9% 6.11 B+ (3.49) B- (2.78)
Overholser, Douglas P MATH 10C - Calculus (A) FA11211 97 90.6% 94.7% 5.55 B (3.26) B- (2.86)
Slawinski, Michael A. MATH 10C - Calculus (C) FA11243 100 74.7% 48.5% 7.37 B- (2.99) C+ (2.47)
Meyer, David A. MATH 111A - Mathematical Modeling I (A) FA1137 24 95.8% 100.0% 4.92 B+ (3.57) A- (3.79)
Helton, John W. MATH 120A - Elements of Complex Analysis (A) FA1132 11 81.8% 54.5% 6.32 B+ (3.36) B (3.01)
Baouendi, M Salah MATH 140A - Foundations of Real Analysis I (A) FA1133 16 93.8% 93.8% 10.63 B+ (3.47) C+ (2.60)
Stern, Ari MATH 142A - Introduction to Analysis I (A) FA1158 34 73.5% 88.2% 7.32 B (3.00) B- (2.78)
Rabin, Jeffrey Mark MATH 150A - Differential Geometry (A) FA1137 16 87.5% 93.8% 9.25 B+ (3.33) C+ (2.64)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) FA1195 41 87.8% 97.6% 8.06 B+ (3.31) C+ (2.39)
Leok, Melvin MATH 174 - Numericl Methods/Physcl Modlng (A) FA1111 6 83.3% 83.3% 10.50 A (4.00) N/A
Schweinsberg, Jason MATH 180A - Introduction to Probability (A) FA11118 57 100.0% 100.0% 8.11 B+ (3.46) B- (2.97)
Abramson, Ian S MATH 181C - Math Statistics-Nonparametric (A) FA1120 16 100.0% 100.0% 6.75 A (4.00) B+ (3.53)
Sterbenz, Jacob MATH 190 - Introduction to Topology (B) FA1110 4 100.0% 100.0% 14.00 B+ (3.50) N/A
Weinkove, Benjamin MATH 20A - Calculus/Science & Engineering (A) FA11196 115 95.7% 100.0% 5.20 B+ (3.45) B- (2.74)
Bowers, Adam R. MATH 20A - Calculus/Science & Engineering (B) FA11293 168 97.6% 98.2% 5.83 B+ (3.55) B- (2.95)
Vankerschaver, Joris G MATH 20A - Calculus/Science & Engineering (D) FA11211 133 98.5% 88.0% 5.97 B+ (3.47) B- (2.89)
Shingel, Tatiana MATH 20B - Calculus/Science & Engineering (A) FA11159 98 93.8% 79.4% 6.05 B+ (3.38) B- (2.72)
Zhang, Yuan MATH 20B - Calculus/Science & Engineering (B) FA11292 163 93.2% 82.1% 6.63 B (3.18) C+ (2.66)
Ni, Lei MATH 20B - Calculus/Science & Engineering (C) FA11173 86 86.9% 48.8% 6.59 B (3.18) C+ (2.47)
Minor, Andre J MATH 20B - Calculus/Science & Engineering (D) FA11203 124 92.6% 91.8% 6.50 B+ (3.42) B- (2.92)
Jones, Miles E MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA11254 152 93.4% 92.1% 6.22 B+ (3.59) B- (2.77)
Oprea, Dragos N. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA11294 148 89.0% 84.9% 7.13 B (3.13) B- (2.79)
Hyatt, Matthew Duane MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA11194 102 93.1% 94.1% 5.87 B+ (3.43) B (3.17)
Kemp, Todd Aahron MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA11228 121 86.0% 66.1% 7.18 B (3.17) C+ (2.54)
Oprea, Dragos N. MATH 20D - Intro/Differential Equations (A) FA11215 127 88.7% 97.6% 6.91 B+ (3.43) B- (2.82)
Shingel, Tatiana MATH 20D - Intro/Differential Equations (B) FA11213 111 85.6% 76.6% 6.95 B+ (3.31) C+ (2.56)
Nguyen, Nicholas D MATH 20D - Intro/Differential Equations (C) FA11232 109 94.4% 98.1% 5.23 A- (3.79) B+ (3.45)
Wenzl, Hans G MATH 20E - Vector Calculus (A) FA11172 72 94.4% 80.3% 6.44 B+ (3.32) B- (2.71)
Minor, Andre J MATH 20E - Vector Calculus (B) FA11215 115 89.2% 96.4% 6.95 B+ (3.56) B- (2.85)
Ohsawa, Tomoki MATH 20F - Linear Algebra (A) FA11325 164 95.7% 96.3% 5.35 B+ (3.46) B (3.02)
Harel, Guershon MATH 20F - Linear Algebra (B) FA11207 90 86.5% 82.0% 7.12 B+ (3.48) C+ (2.68)
Eggers, John Dietrich MATH 31AH - Honors Linear Algebra (A) FA1133 18 23.5% 70.6% 9.94 B (3.11) B- (2.95)
Yang, Bo MATH 3C - Precalculus (B) FA11114 56 77.8% 61.8% 6.35 B (3.12) C+ (2.46)
Eustis, Alex K MATH 3C - Precalculus (C) FA11133 77 81.6% 57.3% 6.90 B (3.11) C+ (2.39)
Hohn, Maryann E MATH 4C - Pre-calculus for Sci & Engn (A) FA11124 95 91.5% 88.4% 6.08 B+ (3.37) C (2.03)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA1120 18 100.0% 100.0% 0.50 A (4.00) N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (B) FA1115 6 100.0% 83.3% 0.50 A (4.00) N/A
Cheng, Hsiao-Bing MATH 102 - Applied Linear Algebra (A) S21140 8 100.0% 75.0% 11.75 B+ (3.43) C+ (2.42)
Ceccherini-Silberstein, Tullio MATH 10B - Calculus (A) S21148 12 58.3% 41.7% 8.17 B- (2.70) C+ (2.42)
Gill, Matthew F MATH 10C - Calculus (A) S211114 35 85.7% 97.0% 8.44 B (3.15) C+ (2.64)
Eggers, John Dietrich MATH 142B - Introduction to Analysis II (A) S21126 6 83.3% 100.0% 11.17 B+ (3.33) C+ (2.51)
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) S21130 18 100.0% 100.0% 7.39 B+ (3.56) B+ (3.35)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) S21111 5 100.0% 100.0% 10.90 A (4.00) N/A
Ceccherini-Silberstein, Tullio MATH 20B - Calculus/Science & Engineering (A) S21141 10 90.0% 100.0% 11.10 C+ (2.67) C+ (2.45)
Shenk, Norman A. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S21190 32 84.4% 87.5% 9.31 B+ (3.47) B- (2.79)
Eggers, John Dietrich MATH 20E - Vector Calculus (A) S211131 50 91.8% 91.8% 9.02 B+ (3.56) B- (2.77)
Young, Alexander A MATH 20F - Linear Algebra (A) S21196 32 78.1% 78.1% 8.06 B+ (3.32) B- (2.71)
Ebrahimi-Fardooee, Mohammad Ali MATH 3C - Precalculus (A) S21122 7 85.7% 85.7% 12.50 B+ (3.50) C- (1.96)
Harel, Guershon MATH 109 - Mathematical Reasoning (A) S11134 15 100.0% 100.0% 6.63 B+ (3.38) B- (2.94)
Wilson, Benjamin E MATH 10A - Calculus (A) S11145 16 93.8% 100.0% 8.75 B+ (3.33) C+ (2.53)
Hicks, Angela S MATH 10B - Calculus (A) S11162 21 71.4% 90.5% 8.50 B (3.05) C+ (2.46)
Fitzgerald, Carl H. MATH 110A - Intro/Partial Differ Equations (A) S11126 9 87.5% 25.0% 9.75 B (3.00) B- (2.90)
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) S11140 15 100.0% 46.7% 9.17 B (3.27) B- (2.94)
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) S11151 21 85.7% 100.0% 7.64 A- (3.71) B- (2.96)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) S11126 11 81.8% 72.7% 9.77 B+ (3.40) B+ (3.38)
Shenk, Norman A. MATH 20A - Calculus/Science & Engineering (A) S11140 15 100.0% 86.7% 9.21 B+ (3.33) B (3.14)
Rotar, Vladimir MATH 20B - Calculus/Science & Engineering (A) S11163 26 96.2% 84.6% 7.42 B+ (3.45) B- (2.88)
Stout, Amy Marguerite Irwin MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) S111108 58 94.8% 98.3% 9.33 B+ (3.51) B- (2.78)
Nguyen, Nicholas D MATH 20D - Intro/Differential Equations (A) S111126 69 92.8% 97.1% 7.92 B+ (3.62) B (3.20)
Schultheis, Daniel J MATH 20F - Linear Algebra (A) S11196 30 96.6% 100.0% 7.60 B+ (3.39) B- (2.77)
Popescu, Cristian D. MATH 100C - Abstract Algebra III (A) SP1121 12 100.0% 100.0% 8.83 B+ (3.36) B+ (3.40)
Keilberg, Marc Daniel MATH 102 - Applied Linear Algebra (A) SP11120 61 89.8% 64.4% 7.91 B (3.16) C+ (2.67)
Volpato, Michael MATH 103B - Modern Algebra II (A) SP1124 12 58.3% 58.3% 6.00 B (3.25) B+ (3.63)
Thapen, Neil Dillip MATH 109 - Mathematical Reasoning (A) SP1139 15 60.0% 46.7% 8.36 B- (2.71) C+ (2.67)
Minnes Kemp, Mor Mia MATH 109 - Mathematical Reasoning (B) SP1167 36 88.9% 97.2% 7.06 B (3.03) C+ (2.58)
Meier, Caleb A MATH 10A - Calculus (A) SP11160 45 70.5% 54.5% 6.95 B- (2.79) C (2.29)
Zhang, Yuan MATH 10B - Calculus (A) SP1196 34 75.8% 54.5% 4.98 B- (2.91) B- (2.85)
Shulman, Michael A MATH 10B - Calculus (B) SP11190 76 81.6% 68.4% 6.15 B (3.19) B- (2.71)
Eggers, John Dietrich MATH 10C - Calculus (A) SP11279 106 84.8% 89.5% 5.81 B (3.18) C+ (2.69)
Young, Stephen J. MATH 10C - Calculus (B) SP11174 66 72.3% 49.2% 5.56 B- (2.98) C+ (2.63)
Fedou, Jean Marc MATH 10C - Calculus (C) SP1139 13 76.9% 38.5% 5.58 B (3.09) C+ (2.67)
Kjos-Hanssen, Bjoern MATH 11 - Elem. Probability & Statistics (A) SP11283 125 66.9% 30.1% 6.11 B+ (3.38) C+ (2.63)
Agler, Jim MATH 110B - Partial Diff Equa&Integral Equ (A) SP1111 7 100.0% 100.0% 11.17 A- (3.71) N/A
Baouendi, M Salah MATH 120B - Applied Complex Analysis (A) SP1128 20 90.0% 95.0% 7.50 B+ (3.65) B (3.08)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1128 21 100.0% 100.0% 5.83 A- (3.80) B+ (3.66)
Rabin, Jeffrey Mark MATH 130B - Ordinary Differntl Equation II (A) SP1128 17 94.1% 94.1% 7.68 B (3.00) B- (2.88)
Lebl, Jiri MATH 140B - Foundations/Real Analysis II (A) SP1125 15 85.7% 38.5% 8.50 B+ (3.40) B+ (3.37)
Weinkove, Benjamin MATH 140C - Foundations/Real Analysis III (A) SP1119 6 83.3% 83.3% 11.83 B (3.17) N/A
Stevens, Laura Jeanne MATH 142B - Introduction to Analysis II (A) SP1162 36 80.6% 100.0% 7.89 B (3.24) B- (2.77)
Cheng, Hsiao-Bing MATH 150B - Calculus on Manifolds (A) SP119 3 100.0% 100.0% 12.50 A (4.00) N/A
Graham, Fan Chung MATH 152 - Applicable Math and Computing (A) SP1136 10 90.0% 60.0% 5.30 A- (3.80) B+ (3.54)
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP1192 43 74.4% 51.2% 6.31 B (3.10) B- (2.85)
Nie, Jiawang MATH 170B - Intro/Numerical Analy/Approxim (A) SP1115 3 66.7% 66.7% 5.83 B+ (3.33) N/A
Shingel, Tatiana MATH 170C - Intro Numerical Analy/Ord Diff (A) SP119 7 71.4% 85.7% 11.93 B- (2.71) N/A
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1125 13 100.0% 92.3% 6.19 B+ (3.54) B+ (3.33)
Driver, Bruce K MATH 180C - Intro/Stochastic Processes II (A) SP1131 14 92.9% 100.0% 8.07 B+ (3.36) B+ (3.34)
Arias-Castro, Ery MATH 181B - Intro/Mathemat Statistics II (A) SP1133 15 100.0% 80.0% 6.36 A- (3.77) B+ (3.44)
Garner, William John MATH 183 - Statistical Methods (A) SP11193 160 71.9% 95.6% 7.09 B (3.08) C+ (2.43)
Yip, Martha MATH 184A - Combinatorics (A) SP1140 19 68.4% 84.2% 8.18 B (3.26) B- (2.88)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP1117 7 100.0% 100.0% 6.21 A (4.00) N/A
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP1163 24 86.4% 68.2% 4.50 B+ (3.33) B- (2.70)
Banaszak, Grzegorz Marian MATH 20A - Calculus/Science & Engineering (A) SP11136 53 90.6% 37.7% 7.25 B- (2.88) C+ (2.47)
Lebl, Jiri MATH 20B - Calculus/Science & Engineering (A) SP11208 96 86.3% 69.5% 6.86 B (3.30) C+ (2.68)
Lee, Seung W MATH 20B - Calculus/Science & Engineering (B) SP11112 42 90.2% 72.5% 6.16 B- (2.88) C (2.28)
Ohsawa, Tomoki MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP11296 122 93.4% 95.1% 6.10 B+ (3.32) B- (2.96)
Vankerschaver, Joris G MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP11290 158 77.1% 73.7% 5.90 B (3.18) B- (2.72)
Banaszak, Grzegorz Marian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP11144 49 77.1% 20.8% 5.21 B (3.04) B- (2.73)
Helton, John W. MATH 20D - Intro/Differential Equations (A) SP11157 76 71.1% 13.2% 7.49 B- (2.97) C+ (2.68)
Minnes Kemp, Mor Mia MATH 20D - Intro/Differential Equations (B) SP11278 118 83.8% 89.0% 7.72 B+ (3.37) B- (2.70)
Stern, Ari MATH 20E - Vector Calculus (A) SP11191 100 83.8% 92.9% 6.46 B (3.24) C+ (2.58)
Yip, Martha MATH 20E - Vector Calculus (B) SP11197 57 80.7% 84.2% 6.46 B- (2.96) B- (2.76)
Li, Bo MATH 20F - Linear Algebra (A) SP11218 82 92.5% 90.0% 5.51 B+ (3.49) B- (2.77)
Wenzl, Hans G MATH 20F - Linear Algebra (B) SP11315 121 90.8% 79.0% 5.65 B+ (3.64) B- (2.81)
Eggers, John Dietrich MATH 31CH - Honors Vector Calculus (A) SP1114 6 100.0% 60.0% 11.17 B+ (3.40) N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (A) SP1113 8 100.0% 100.0% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1128 15 100.0% 100.0% 2.37 A (4.00) A- (3.73)
Popescu, Cristian D. MATH 100B - Abstract Algebra II (A) WI1134 22 86.4% 95.5% 9.83 B (3.00) B- (2.76)
Zelmanov, Efim I MATH 103A - Modern Algebra I (A) WI1155 22 77.3% 90.9% 6.41 B+ (3.42) C+ (2.55)
Popescu, Cristian D. MATH 103B - Modern Algebra II (A) WI1114 7 85.7% 100.0% 10.21 B (3.14) N/A
Lifschitz, Lucy MATH 104A - Number Theory I (A) WI1142 25 79.2% 75.0% 7.28 B (3.29) B- (2.73)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) WI1151 24 87.0% 91.7% 6.17 B+ (3.35) B (3.00)
Banaszak, Grzegorz Marian MATH 109 - Mathematical Reasoning (B) WI1149 23 87.0% 68.2% 7.28 B (3.00) C (2.24)
Shingel, Tatiana MATH 10A - Calculus (A) WI11175 95 86.3% 83.2% 5.26 B (3.02) C+ (2.43)
Yip, Martha MATH 10A - Calculus (B) WI11187 95 86.2% 90.4% 5.05 B (3.07) C+ (2.57)
Mirjalalieh Shirazi, Mir Hamed MATH 10B - Calculus (A) WI11121 66 87.9% 53.8% 4.65 B (3.29) C+ (2.64)
Eggers, John Dietrich MATH 10B - Calculus (B) WI11278 158 90.5% 96.8% 5.73 B (3.23) C+ (2.55)
Dong, Bin MATH 10B - Calculus (C) WI11200 95 84.2% 65.3% 4.61 B (3.18) B- (2.79)
Lebl, Jiri MATH 10C - Calculus (A) WI1171 36 85.7% 82.4% 4.27 B+ (3.41) B (3.16)
Tesler, Glenn MATH 10C - Calculus (B) WI11287 130 93.1% 89.1% 5.33 B+ (3.57) B- (2.71)
Volpato, Michael MATH 10C - Calculus (C) WI11111 55 85.5% 63.6% 4.46 B (3.27) B- (2.86)
Zhang, Yuan MATH 110A - Intro/Partial Differ Equations (A) WI1154 20 90.0% 100.0% 6.90 B+ (3.53) C+ (2.68)
Baouendi, M Salah MATH 120A - Elements of Complex Analysis (A) WI1170 34 90.9% 90.9% 6.68 B (3.24) B- (2.95)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1142 25 100.0% 100.0% 3.86 A- (3.91) A- (3.79)
Rabin, Jeffrey Mark MATH 130A - Ordinary Differntl Equation I (A) WI1158 35 97.1% 100.0% 6.73 B+ (3.31) B- (2.71)
Lebl, Jiri MATH 140A - Foundations of Real Analysis I (A) WI1134 13 69.2% 15.4% 12.17 B+ (3.33) B- (2.99)
Weinkove, Benjamin MATH 140B - Foundations/Real Analysis II (A) WI1125 11 72.7% 100.0% 8.90 B (3.20) B- (2.92)
Eggers, John Dietrich MATH 142A - Introduction to Analysis I (A) WI1177 44 65.1% 90.9% 9.98 B- (2.71) C (2.12)
Wulbert, Daniel E. MATH 142B - Introduction to Analysis II (A) WI1122 10 90.0% 100.0% 8.30 B+ (3.56) C+ (2.66)
Chow, Bennett MATH 150A - Differential Geometry (A) WI1127 13 69.2% 92.3% 7.00 B+ (3.42) B (3.29)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) WI1132 12 100.0% 100.0% 6.83 B+ (3.44) B (3.26)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) WI1147 19 84.2% 100.0% 8.82 B- (2.94) C+ (2.39)
Leok, Melvin MATH 170B - Intro/Numerical Analy/Approxim (A) WI1117 8 100.0% 100.0% 8.00 B+ (3.50) N/A
Gill, Philip E. MATH 171A - Intro Num Optimiz/Linear Prob (A) WI1134 29 92.6% 96.3% 8.02 B (3.26) B (3.28)
Williams, Ruth J MATH 180A - Introduction to Probability (A) WI1148 20 85.0% 80.0% 8.70 B (3.25) B- (2.90)
Driver, Bruce K MATH 180B - Intro/Stochastic Processes I (A) WI1138 24 100.0% 100.0% 6.75 B+ (3.58) B (3.14)
Kjos-Hanssen, Bjoern MATH 181A - Intro/Mathemat Statistics I (A) WI1150 25 80.0% 52.0% 7.25 B+ (3.38) C+ (2.49)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1129 15 93.3% 93.3% 7.97 B+ (3.38) B- (2.90)
Fitzsimmons, Patrick J MATH 194 - The Mathematics of Finance (A) WI1171 29 85.7% 89.3% 7.05 B+ (3.48) B- (2.99)
Weinkove, Benjamin MATH 20A - Calculus/Science & Engineering (A) WI11277 143 98.6% 95.8% 5.70 B (3.24) C+ (2.38)
Thapen, Neil Dillip MATH 20B - Calculus/Science & Engineering (A) WI11225 130 90.7% 41.5% 5.76 B (3.08) C+ (2.64)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (B) WI11283 162 96.3% 98.8% 6.05 B (3.26) C+ (2.57)
Volpato, Michael MATH 20B - Calculus/Science & Engineering (C) WI11197 108 86.9% 59.4% 6.05 B (3.22) B- (2.77)
Agler, Jim MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI11206 127 88.1% 56.0% 6.29 B (3.09) B- (2.90)
Keilberg, Marc Daniel MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI11195 108 90.6% 67.0% 5.96 B (3.30) C+ (2.64)
Yip, Martha MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI11213 109 90.8% 91.7% 5.99 B+ (3.46) B- (2.80)
Shulman, Michael A MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI11289 169 83.3% 59.9% 5.85 B+ (3.33) B- (2.77)
Foley, John D MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI1181 37 86.5% 48.6% 6.77 B (3.09) C+ (2.65)
Young, Stephen J. MATH 20D - Intro/Differential Equations (A) WI11216 101 71.0% 48.0% 8.20 B (3.05) C+ (2.69)
Blekherman, Grigoriy MATH 20D - Intro/Differential Equations (B) WI11223 128 92.2% 97.6% 5.76 B+ (3.54) C+ (2.66)
Banaszak, Grzegorz Marian MATH 20E - Vector Calculus (A) WI11168 75 66.7% 42.7% 6.69 B (3.14) C+ (2.55)
Wang, Zhongming MATH 20E - Vector Calculus (B) WI11184 93 82.8% 62.4% 7.34 B (3.27) C (2.16)
Mirjalalieh Shirazi, Mir Hamed MATH 20F - Linear Algebra (A) WI11195 97 81.4% 65.6% 5.88 B (3.23) C+ (2.67)
Keilberg, Marc Daniel MATH 20F - Linear Algebra (B) WI11199 107 77.1% 32.7% 5.00 B (3.27) C+ (2.68)
Stern, Ari MATH 20F - Linear Algebra (C) WI11215 128 80.3% 74.8% 5.63 B (3.27) C+ (2.59)
Oprea, Dragos N. MATH 31BH - Honors Multivariable Calculus (A) WI1117 11 90.9% 100.0% 7.59 B+ (3.45) N/A
Hummon, Benjamin T MATH 3C - Precalculus (B) WI1167 32 84.4% 81.3% 6.56 B- (2.86) C (2.08)
Pollock, Sara N MATH 3C - Precalculus (C) WI1148 22 81.8% 63.6% 7.50 B (3.21) C+ (2.69)
Gill, Matthew F MATH 4C - Pre-calculus for Sci & Engn (A) WI1157 25 96.0% 100.0% 6.18 B (3.25) C+ (2.39)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1117 14 92.9% 100.0% 0.50 N/A N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (B) WI1110 5 100.0% 100.0% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (C) WI1114 8 100.0% 100.0% 0.50 A (4.00) N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1119 14 76.9% 69.2% 2.50 A- (3.93) N/A
Minnes Kemp, Mor Mia MATH 100A - Abstract Algebra I (A) FA1042 33 100.0% 100.0% 9.89 B+ (3.55) B- (2.83)
Wenzl, Hans G MATH 102 - Applied Linear Algebra (A) FA1089 37 86.5% 54.1% 7.26 B (3.17) B- (2.80)
Bucur, Alina Ioana MATH 103A - Modern Algebra I (A) FA1050 22 77.3% 59.1% 9.41 B (3.29) C (2.16)
Agler, Jim MATH 109 - Mathematical Reasoning (A) FA1018 10 80.0% 90.0% 9.90 B (3.20) N/A
Shulman, Michael A MATH 109 - Mathematical Reasoning (B) FA1048 16 87.5% 87.5% 6.75 B+ (3.33) B- (2.90)
Keilberg, Marc Daniel MATH 109 - Mathematical Reasoning (C) FA1037 16 75.0% 68.8% 9.25 B (3.19) C+ (2.50)
Stevens, Laura Jeanne MATH 10A - Calculus (A) FA10188 114 95.6% 100.0% 6.41 B+ (3.31) C+ (2.56)
Minnes Kemp, Mor Mia MATH 10A - Calculus (B) FA10210 141 86.3% 78.8% 5.66 B (3.17) B- (2.71)
Stern, Ari MATH 10A - Calculus (C) FA10238 131 89.3% 62.6% 5.34 B (3.06) C+ (2.46)
Verstraete, Jacques Allan MATH 10B - Calculus (A) FA10200 111 93.5% 91.6% 5.04 B+ (3.50) B- (2.97)
Keilberg, Marc Daniel MATH 10B - Calculus (B) FA10151 71 82.9% 38.6% 6.19 B+ (3.41) C+ (2.55)
Young, Stephen J. MATH 10B - Calculus (C) FA1090 42 88.1% 69.0% 6.83 B (3.00) C+ (2.59)
Radcliffe, Mary L MATH 10C - Calculus (A) FA1088 76 86.8% 90.8% 5.74 B (3.27) C+ (2.39)
Yip, Martha MATH 10C - Calculus (B) FA10264 109 86.9% 84.0% 5.45 B+ (3.38) B- (2.75)
Overholser, Rosanna Hope MATH 10C - Calculus (C) FA10150 67 83.6% 81.8% 6.38 B+ (3.42) B- (2.89)
Driver, Bruce K MATH 120A - Elements of Complex Analysis (A) FA1049 22 81.8% 95.5% 6.86 B+ (3.33) C+ (2.53)
Gross, Mark W. MATH 140A - Foundations of Real Analysis I (A) FA1031 15 100.0% 100.0% 7.57 B (3.29) C+ (2.67)
Wulbert, Daniel E. MATH 142A - Introduction to Analysis I (A) FA1051 23 63.6% 63.6% 12.07 B (3.05) C (2.28)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA1035 19 78.9% 57.9% 9.55 B (3.29) C+ (2.39)
Leok, Melvin MATH 170A - Intro Numerical Analys/Linear (A) FA1058 26 76.0% 72.0% 8.04 B+ (3.64) B- (2.82)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA1025 14 92.9% 100.0% 6.21 B+ (3.54) B- (2.96)
Kemp, Todd Aahron MATH 180A - Introduction to Probability (A) FA1066 41 82.9% 75.6% 8.30 B (3.24) C+ (2.69)
Politis, Dimitris MATH 181E - Mathemat Statistic-Time Series (A) FA1018 10 80.0% 90.0% 10.30 A (4.00) N/A
Abramson, Ian S MATH 183 - Statistical Methods (A) FA10128 52 63.5% 67.3% 7.12 B (3.00) B- (2.76)
Roberts, Justin Deritter MATH 190 - Introduction to Topology (A) FA1033 17 82.4% 100.0% 8.38 B (3.18) B (3.24)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (A) FA10284 171 94.1% 94.0% 6.94 B (3.17) C+ (2.46)
Yip, Martha MATH 20A - Calculus/Science & Engineering (B) FA10187 120 89.0% 82.2% 6.18 B (3.15) C+ (2.46)
Zhang, Yuan MATH 20A - Calculus/Science & Engineering (C) FA10207 113 90.3% 39.3% 5.63 B (3.23) C+ (2.60)
Dong, Bin MATH 20B - Calculus/Science & Engineering (A) FA10241 156 90.3% 71.0% 6.77 B (3.17) B- (2.84)
Lifschitz, Lucy MATH 20B - Calculus/Science & Engineering (B) FA10277 164 86.6% 35.4% 5.80 B (3.26) B- (2.83)
Ohsawa, Tomoki MATH 20B - Calculus/Science & Engineering (C) FA10185 109 85.3% 87.2% 6.48 B+ (3.43) B- (2.87)
Mirjalalieh Shirazi, Mir Hamed MATH 20B - Calculus/Science & Engineering (D) FA10194 119 86.6% 34.5% 5.60 B (3.29) B- (2.71)
Lebl, Jiri MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA10288 158 92.9% 71.8% 5.38 B+ (3.47) B- (2.73)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA10210 119 83.8% 96.6% 6.80 B- (2.95) C+ (2.35)
Bucur, Alina Ioana MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA10284 165 87.7% 73.3% 6.97 B+ (3.39) C+ (2.40)
Zhang, Yuan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA10241 140 88.5% 52.9% 5.97 B+ (3.34) B- (2.72)
Dong, Bin MATH 20D - Intro/Differential Equations (A) FA10207 113 87.6% 97.3% 5.72 B+ (3.40) B (3.03)
Lebl, Jiri MATH 20D - Intro/Differential Equations (B) FA10184 85 74.1% 47.6% 6.10 B (3.07) C+ (2.53)
Mirjalalieh Shirazi, Mir Hamed MATH 20D - Intro/Differential Equations (C) FA10177 86 76.5% 31.8% 7.02 B (3.13) B- (2.76)
Ni, Lei MATH 20E - Vector Calculus (A) FA10153 67 67.2% 49.3% 7.63 B (3.20) C+ (2.40)
Volpato, Michael MATH 20E - Vector Calculus (B) FA10163 82 82.9% 84.1% 6.48 B+ (3.41) B- (2.78)
Driver, Bruce K MATH 20F - Linear Algebra (A) FA10183 89 94.4% 92.0% 6.14 B+ (3.43) B- (2.75)
Vankerschaver, Joris G MATH 20F - Linear Algebra (B) FA10296 162 85.7% 84.4% 5.86 B (3.26) B- (2.81)
Oprea, Dragos N. MATH 31AH - Honors Linear Algebra (A) FA1028 22 72.7% 100.0% 8.12 B (3.18) B+ (3.38)
Johnson, Alan Starz MATH 3C - Precalculus (A) FA1055 31 87.1% 67.7% 5.98 B- (2.87) C+ (2.50)
Ebrahimi-Fardooee, Mohammad Ali MATH 3C - Precalculus (B) FA1053 34 88.2% 82.4% 6.68 B (3.03) C+ (2.51)
Jones, Miles E MATH 3C - Precalculus (C) FA1040 20 95.0% 95.0% 8.50 B (3.00) C+ (2.65)
Gao, Teng MATH 3C - Precalculus (D) FA1025 11 90.9% 90.9% 5.95 C+ (2.45) C+ (2.33)
Stout, Andrew W MATH 4C - Pre-calculus for Sci & Engn (A) FA10118 104 87.4% 92.2% 6.48 B- (2.77) C- (1.77)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA1013 11 100.0% 100.0% 0.50 N/A N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (B) FA1020 13 100.0% 100.0% 0.67 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (C) FA1017 13 100.0% 100.0% 1.27 A (4.00) N/A
Haff, Leonard R. MATH 87 - Freshman Seminar (D) FA1015 12 75.0% 91.7% 0.83 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) FA1024 21 100.0% 100.0% 0.98 A- (3.89) N/A
Eggers, John Dietrich MATH 109 - Mathematical Reasoning (A) SU1050 16 93.3% 93.3% 10.88 B+ (3.57) N/A
Haut, Rosanna H MATH 10A - Calculus (A) SU1032 8 62.5% 100.0% 7.75 B+ (3.50) N/A
Lee, Seung W MATH 10B - Calculus (A) SU1058 25 83.3% 84.0% 9.46 B- (2.96) N/A
Reed, Joseph Robert MATH 10B - Calculus (A) SU1046 20 80.0% 90.0% 9.50 B- (2.95) N/A
Garner, William John MATH 10C - Calculus (A) SU1089 66 84.8% 93.9% 7.89 B (3.10) N/A
Fitzgerald, Carl H. MATH 110A - Intro/Partial Differ Equations (A) SU1034 8 57.1% 57.1% 11.50 B (3.17) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) SU1035 11 100.0% 54.5% 9.77 B+ (3.40) N/A
Verstraete, Jacques Allan MATH 142A - Introduction to Analysis I (A) SU1033 7 100.0% 100.0% 8.79 A- (3.86) N/A
Stevens, Laura Jeanne MATH 142B - Introduction to Analysis II (A) SU1027 18 100.0% 100.0% 8.94 A- (3.78) N/A
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) SU1041 15 100.0% 100.0% 8.90 B+ (3.36) N/A
Chow, Bennett MATH 20A - Calculus/Science & Engineering (A) SU1012 3 66.7% 100.0% 13.83 B (3.00) N/A
Stout, Amy Marguerite Irwin MATH 20A - Calculus/Science & Engineering (A) SU1021 4 100.0% 100.0% 10.00 B+ (3.50) N/A
Ceccherini-Silberstein, Tullio MATH 20B - Calculus/Science & Engineering (A) SU1031 9 77.8% 55.6% 9.17 B (3.22) N/A
Shenk, Norman A. MATH 20B - Calculus/Science & Engineering (B) SU1049 19 78.9% 68.4% 9.17 B+ (3.32) N/A
Shroff, Ravi MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU1084 29 89.7% 96.4% 8.21 B (3.29) N/A
Shenk, Norman A. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SU1077 26 84.6% 92.3% 8.12 B+ (3.68) N/A
Radcliffe, Mary L MATH 20D - Intro/Differential Equations (A) SU10128 41 100.0% 97.5% 8.25 B+ (3.49) N/A
Eggers, John Dietrich MATH 20E - Vector Calculus (A) SU10113 42 95.2% 97.6% 10.93 A- (3.76) N/A
Ceccherini-Silberstein, Tullio MATH 20F - Linear Algebra (A) SU1066 21 85.0% 55.0% 10.50 B+ (3.45) N/A
Lunasin, Evelyn Manalo MATH 20F - Linear Algebra (A) SU1089 25 84.0% 79.2% 8.66 B+ (3.50) N/A
Driscoll, Patrick R MATH 3C - Precalculus (A) SU1025 8 37.5% 75.0% 12.00 C (2.29) N/A
Popescu, Cristian D. MATH 100C - Abstract Algebra III (A) SP1020 11 90.9% 100.0% 9.41 B (3.00) B (3.28)
Li, Bo MATH 102 - Applied Linear Algebra (A) SP10155 71 88.2% 82.6% 5.84 B+ (3.44) B- (2.72)
Terras, Audrey MATH 103B - Modern Algebra II (A) SP1049 22 95.5% 100.0% 6.86 B+ (3.60) B+ (3.46)
Volpato, Michael MATH 104B - Number Theory (A) SP1019 10 70.0% 80.0% 5.90 B+ (3.50) N/A
Balog, Jozsef MATH 109 - Mathematical Reasoning (A) SP1051 23 69.6% 34.8% 9.46 B (3.09) C (2.27)
Ferry, Michael William MATH 109 - Mathematical Reasoning (B) SP1054 31 77.4% 83.9% 10.23 B- (2.85) C (2.02)
Shingel, Tatiana MATH 10A - Calculus (A) SP10134 54 90.7% 66.7% 5.41 B (3.19) C+ (2.46)
Yoo, Meesue MATH 10B - Calculus (A) SP10116 52 71.2% 38.5% 6.62 B (3.06) C+ (2.62)
Balog, Jozsef MATH 10B - Calculus (B) SP10160 72 49.3% 8.5% 6.64 C+ (2.45) C (2.28)
Yoo, Meesue MATH 10C - Calculus (A) SP1086 38 78.4% 67.6% 5.55 B (3.22) B- (2.84)
Wilson, Benjamin E MATH 10C - Calculus (B) SP10311 165 90.1% 93.2% 5.01 B+ (3.40) B- (2.89)
Zhang, Yuan MATH 10C - Calculus (C) SP10147 57 89.3% 51.8% 4.75 B (3.22) B- (2.81)
Schweinsberg, Jason MATH 11 - Elem. Probability & Statistics (A) SP10209 97 62.1% 84.4% 7.67 B (3.23) B- (2.80)
Lindblad, Hans MATH 110B - Partial Diff Equa&Integral Equ (A) SP1013 5 80.0% 80.0% 7.70 B+ (3.40) N/A
Zhang, Yuan MATH 120B - Applied Complex Analysis (A) SP1022 11 81.8% 81.8% 4.86 B (3.27) B- (2.82)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP1026 17 88.2% 100.0% 5.09 B+ (3.31) B (3.20)
Sterbenz, Jacob MATH 130B - Ordinary Differntl Equation II (A) SP1018 9 66.7% 66.7% 6.72 C+ (2.63) N/A
Ni, Lei MATH 140B - Foundations/Real Analysis II (A) SP1017 8 75.0% 75.0% 9.75 B (3.00) N/A
Wulbert, Daniel E. MATH 140C - Foundations/Real Analysis III (A) SP1021 9 77.8% 77.8% 11.50 B (3.13) B- (2.85)
Terras, Audrey MATH 142B - Introduction to Analysis II (A) SP1066 26 92.3% 96.2% 6.42 B+ (3.63) B+ (3.38)
Dong, Bin MATH 170B - Intro/Numerical Analy/Approxim (A) SP1025 17 100.0% 100.0% 9.21 B+ (3.65) B+ (3.45)
Holst, Michael J MATH 170C - Intro Numerical Analy/Ord Diff (A) SP1019 5 100.0% 100.0% 2.90 B+ (3.40) N/A
Nie, Jiawang MATH 171B - Intro Num Optimiz/Nonlinear (A) SP1013 8 87.5% 100.0% 5.25 B+ (3.57) N/A
Cheng, Li-Tien MATH 179 - Proj in Computational/App Math (A) SP104 3 100.0% 100.0% 6.50 B+ (3.67) N/A
Verstraete, Jacques Allan MATH 180A - Introduction to Probability (A) SP1082 35 87.9% 97.0% 5.35 B+ (3.31) C+ (2.56)
Rothschild, Linda Preiss MATH 180C - Intro/Stochastic Processes II (A) SP1027 16 93.8% 87.5% 7.13 B+ (3.31) B (3.20)
McMurry, Timothy L MATH 181B - Intro/Mathemat Statistics II (A) SP1036 23 100.0% 100.0% 6.93 B+ (3.35) B- (2.93)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP1027 18 94.4% 72.2% 8.39 B+ (3.35) B+ (3.51)
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP1098 47 87.0% 44.4% 4.41 B+ (3.39) B (3.23)
Rotar, Vladimir MATH 193B - Actuarial Mathematics II (A) SP1034 19 78.9% 89.5% 6.50 B (3.24) B (3.24)
Kong, Shengli MATH 20A - Calculus/Science & Engineering (A) SP1092 38 92.1% 86.1% 6.08 B (3.14) C+ (2.53)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) SP10287 115 86.0% 96.5% 6.71 B (3.12) C+ (2.56)
Popescu, Cristian D. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP10159 65 85.9% 74.2% 6.50 B (3.15) C+ (2.52)
Young, Stephen J. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP10186 84 73.8% 38.3% 7.46 B- (2.76) C+ (2.68)
Rogalski, Daniel MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP10295 147 84.2% 76.7% 6.60 B (3.18) B- (2.76)
Ebrahimi-Fardooee, Mohammad Ali MATH 20D - Intro/Differential Equations (A) SP10175 80 88.8% 94.9% 6.23 B+ (3.56) C+ (2.65)
Sterbenz, Jacob MATH 20D - Intro/Differential Equations (B) SP10284 107 86.0% 91.6% 6.35 B+ (3.50) B- (2.78)
Rabin, Jeffrey Mark MATH 20E - Vector Calculus (A) SP10154 74 73.6% 86.1% 7.62 B (3.19) C+ (2.53)
Chow, Bennett MATH 20E - Vector Calculus (B) SP10195 90 89.9% 83.0% 5.44 B+ (3.57) B- (2.89)
Stevens, Laura Jeanne MATH 20F - Linear Algebra (A) SP10202 97 88.4% 98.9% 5.69 B+ (3.40) C+ (2.62)
Kong, Shengli MATH 20F - Linear Algebra (B) SP10316 142 89.9% 59.0% 5.19 B+ (3.43) B- (2.85)
Eggers, John Dietrich MATH 31CH - Honors Vector Calculus (A) SP1017 8 75.0% 87.5% 7.25 B (3.13) N/A
Bunch, James R. MATH 87 - Freshman Seminar (A) SP1018 11 100.0% 100.0% 0.50 N/A N/A
Rabin, Jeffrey Mark MATH 87 - Freshman Seminar (B) SP1011 7 71.4% 100.0% 1.07 N/A N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (C) SP109 5 100.0% 100.0% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP1028 19 94.7% 100.0% 2.29 B+ (3.59) N/A
Rogalski, Daniel MATH 100B - Abstract Algebra II (A) WI1029 13 100.0% 100.0% 8.04 B+ (3.54) B (3.20)
Harmse, Johannes Andreas MATH 102 - Applied Linear Algebra (A) WI1046 18 100.0% 88.9% 8.06 B+ (3.36) B- (2.77)
Volpato, Michael MATH 103A - Modern Algebra I (A) WI1044 17 76.5% 64.7% 8.74 B- (2.75) B- (2.87)
Wenzl, Hans G MATH 103B - Modern Algebra II (A) WI1017 7 85.7% 71.4% 6.79 B (3.29) N/A
Evans, Ronald J. MATH 104A - Number Theory (A) WI1039 20 90.0% 100.0% 8.50 B+ (3.35) B (3.01)
Gross, Mark W. MATH 109 - Mathematical Reasoning (A) WI1037 11 72.7% 100.0% 5.05 B (3.10) B- (2.79)
Rogalski, Daniel MATH 109 - Mathematical Reasoning (B) WI1043 15 93.3% 100.0% 7.30 B+ (3.40) B (3.23)
Kong, Shengli MATH 10A - Calculus (A) WI10166 82 86.6% 89.0% 5.65 B+ (3.32) C+ (2.60)
De Winter, Stefaan MATH 10A - Calculus (B) WI10159 68 94.0% 87.9% 4.74 B (3.00) C+ (2.51)
Dong, Bin MATH 10B - Calculus (A) WI1082 36 91.7% 69.4% 5.33 B (3.00) B- (2.74)
Eggers, John Dietrich MATH 10B - Calculus (B) WI10189 80 87.5% 88.8% 5.50 B (3.12) C+ (2.43)
Kemkes, Graeme David MATH 10B - Calculus (C) WI10213 106 89.6% 80.2% 4.92 B (3.12) B- (2.70)
Yoo, Meesue MATH 10B - Calculus (D) WI10166 76 82.7% 38.7% 5.09 B (3.28) B- (2.73)
Oprea, Dragos N. MATH 10C - Calculus (A) WI10286 133 95.5% 98.5% 4.14 B+ (3.38) B- (2.78)
Minor, Andre J MATH 10C - Calculus (B) WI10137 66 84.6% 49.2% 4.90 B+ (3.40) B- (2.84)
Kolesnikov, Pavel MATH 10C - Calculus (C) WI1094 34 70.6% 55.9% 5.26 B+ (3.44) B- (2.83)
Wenzl, Hans G MATH 110A - Intro/Partial Differ Equations (A) WI1018 5 80.0% 80.0% 5.70 B (3.25) N/A
Meyer, David A. MATH 111A - Mathematical Modeling I (A) WI1017 8 87.5% 100.0% 5.75 B+ (3.38) N/A
Baouendi, M Salah MATH 120A - Elements of Complex Analysis (A) WI1061 23 82.6% 87.0% 7.20 B (3.23) C+ (2.64)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI1035 23 100.0% 100.0% 4.85 A- (3.85) B+ (3.39)
Agler, Jim MATH 130A - Ordinary Differntl Equation I (A) WI1063 27 96.3% 92.3% 5.46 B+ (3.38) B+ (3.36)
Ni, Lei MATH 140A - Foundations of Real Analysis I (A) WI1025 11 90.9% 81.8% 9.95 B (3.10) C (2.14)
Evans, Ronald J. MATH 140B - Foundations/Real Analysis II (A) WI1045 15 100.0% 86.7% 8.36 B+ (3.36) B (3.05)
Terras, Audrey MATH 142A - Introduction to Analysis I (A) WI1083 42 88.1% 97.6% 6.60 B+ (3.38) B+ (3.63)
Roberts, Justin Deritter MATH 142B - Introduction to Analysis II (A) WI1030 15 86.7% 86.7% 7.57 B+ (3.43) B (3.25)
Verstraete, Jacques Allan MATH 154 - Discrete Math & Graph Theory (A) WI1014 5 100.0% 100.0% 4.90 B+ (3.40) N/A
Garsia, Adriano M. MATH 155A - Geometric Computer Graphics (A) WI107 3 66.7% 100.0% 5.17 B+ (3.33) N/A
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) WI1036 16 100.0% 87.5% 3.38 B+ (3.57) B (3.18)
Dong, Bin MATH 170A - Intro Numerical Analys/Linear (A) WI1033 18 94.4% 94.4% 6.17 B+ (3.50) B+ (3.40)
Leok, Melvin MATH 170B - Intro/Numerical Analy/Approxim (A) WI1017 8 87.5% 100.0% 7.25 B+ (3.38) N/A
Nie, Jiawang MATH 171A - Intro Num Optimiz/Linear Prob (A) WI1016 13 100.0% 92.3% 6.96 B+ (3.62) N/A
Fitzsimmons, Patrick J MATH 180B - Intro/Stochastic Processes I (A) WI1041 19 84.2% 94.7% 9.39 B- (2.95) B (3.01)
Arias-Castro, Ery MATH 181A - Intro/Mathemat Statistics I (A) WI1057 31 80.6% 67.7% 8.05 B+ (3.32) B- (2.75)
McMurry, Timothy L MATH 183 - Statistical Methods (A) WI10104 46 73.3% 95.7% 6.01 B (3.25) C+ (2.55)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI1037 14 85.7% 78.6% 7.79 B (3.21) B- (2.87)
Rotar, Vladimir MATH 193A - Actuarial Mathematics I (A) WI1034 13 84.6% 76.9% 7.88 B (3.08) B (3.17)
Fitzsimmons, Patrick J MATH 194 - The Mathematics of Finance (A) WI1050 16 93.8% 93.8% 5.25 B+ (3.31) B (3.05)
Yoo, Meesue MATH 20A - Calculus/Science & Engineering (A) WI10219 113 85.0% 36.3% 7.29 B- (2.92) B- (2.73)
Young, Stephen J. MATH 20B - Calculus/Science & Engineering (A) WI10185 85 87.1% 71.8% 6.45 B (3.10) C+ (2.56)
Shingel, Tatiana MATH 20B - Calculus/Science & Engineering (B) WI10127 51 76.0% 47.9% 5.72 B- (2.91) C+ (2.52)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (C) WI10380 211 92.9% 100.0% 6.13 B (3.19) C+ (2.56)
Popescu, Cristian D. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI10205 101 83.0% 78.8% 6.32 B (3.05) B- (2.82)
Kolesnikov, Pavel MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI10290 115 93.9% 90.4% 5.57 B+ (3.38) B- (2.88)
Zhang, Yuan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI10208 105 84.8% 50.5% 4.79 B (3.20) B- (2.75)
Shopple, John P. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI10235 107 92.5% 83.2% 5.43 B (3.30) C+ (2.69)
Eggers, John Dietrich MATH 20D - Intro/Differential Equations (A) WI10280 138 93.5% 100.0% 6.36 B+ (3.66) C+ (2.45)
Leok, Melvin MATH 20D - Intro/Differential Equations (B) WI10188 90 87.6% 86.5% 6.23 B+ (3.45) C+ (2.48)
Kong, Shengli MATH 20E - Vector Calculus (A) WI10285 118 91.5% 91.5% 5.24 B+ (3.61) C+ (2.65)
De Winter, Stefaan MATH 20E - Vector Calculus (B) WI10171 57 89.5% 89.5% 5.20 B+ (3.55) C+ (2.66)
Lin, James P. MATH 20F - Linear Algebra (A) WI10124 57 83.6% 61.8% 6.54 B+ (3.43) B- (2.77)
Gan, Wee T. MATH 20F - Linear Algebra (B) WI10190 78 82.1% 64.1% 5.60 B (3.16) B- (2.81)
Shopple, John P. MATH 20F - Linear Algebra (C) WI10206 84 91.5% 71.6% 5.51 B+ (3.48) C+ (2.69)
Meyer, David A. MATH 31BH - Honors Multivariable Calculus (A) WI1026 17 94.1% 100.0% 8.85 B (3.29) B+ (3.38)
Vallieres, Daniel MATH 3C - Precalculus (A) WI1059 28 75.0% 100.0% 7.57 C+ (2.64) C- (1.85)
Greene, Jeremy Michael MATH 3C - Precalculus (B) WI1029 14 76.9% 100.0% 7.58 B (3.00) C (2.29)
Garner, William John MATH 4C - Pre-calculus for Sci & Engn (A) WI1045 33 100.0% 100.0% 6.98 B (3.06) C+ (2.62)
Bunch, James R. MATH 87 - Freshman Seminar (A) WI1019 8 85.7% 85.7% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) WI1019 14 100.0% 100.0% 0.79 A (4.00) N/A
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (D) WI1011 7 100.0% 100.0% 0.50 C (2.00) N/A
Harel, Guershon MATH 95 - Introduction to Teaching Math (A) WI1015 10 100.0% 90.0% 3.10 A- (3.80) N/A
Rogalski, Daniel MATH 100A - Abstract Algebra I (A) FA0939 27 88.9% 100.0% 9.31 B (3.25) B- (2.77)
Wenzl, Hans G MATH 103A - Modern Algebra I (A) FA0933 15 80.0% 66.7% 6.90 B (3.14) C+ (2.56)
Eggers, John Dietrich MATH 109 - Mathematical Reasoning (A) FA0935 22 95.2% 100.0% 8.12 B (3.25) C+ (2.67)
Rabin, Jeffrey Mark MATH 109 - Mathematical Reasoning (B) FA0943 29 93.1% 100.0% 6.29 B+ (3.42) B- (2.91)
Chow, Bennett MATH 109 - Mathematical Reasoning (C) FA0927 18 88.2% 100.0% 4.83 B+ (3.44) B (3.02)
Weinkove, Benjamin MATH 10A - Calculus (A) FA09207 133 97.7% 98.5% 3.72 B+ (3.43) B- (2.87)
Chow, Bennett MATH 10A - Calculus (B) FA09146 59 83.1% 64.4% 3.65 B (3.21) B- (2.71)
Stevens, Laura Jeanne MATH 10A - Calculus (C) FA09193 125 98.4% 100.0% 4.04 B+ (3.57) B- (2.74)
Volpato, Michael MATH 10A - Calculus (D) FA09128 79 89.9% 74.7% 3.97 B (3.22) B- (2.70)
De Winter, Stefaan MATH 10B - Calculus (A) FA09125 67 95.5% 98.5% 4.05 B+ (3.48) B- (2.81)
Kong, Shengli MATH 10B - Calculus (B) FA09175 90 93.1% 95.3% 4.12 B+ (3.70) B- (2.97)
Evans, Ronald J. MATH 10B - Calculus (C) FA09165 94 84.9% 73.9% 4.13 B (3.25) B- (2.81)
Oprea, Dragos N. MATH 10C - Calculus (A) FA09180 107 84.6% 82.9% 4.74 B+ (3.31) B- (2.81)
Wenzl, Hans G MATH 10C - Calculus (B) FA09149 75 72.0% 58.7% 4.28 B+ (3.32) B- (2.88)
Shopple, John P. MATH 10C - Calculus (C) FA09171 93 84.8% 64.1% 4.16 B+ (3.52) B- (2.71)
Agler, Jim MATH 110 - Intro/Partial Differ Equations (A) FA0938 26 80.8% 84.6% 6.81 B+ (3.33) B (3.23)
Agler, Jim MATH 110A - Intro/Partial Differ Equations (A) FA0938 26 80.8% 84.6% 6.81 B+ (3.33) B (3.23)
Helton, John W. MATH 120A - Elements of Complex Analysis (A) FA0920 13 69.2% 84.6% 5.88 B- (2.73) B- (2.80)
Evans, Ronald J. MATH 140A - Foundations of Real Analysis I (A) FA0951 39 89.7% 92.3% 9.32 B (3.20) B (3.10)
Roberts, Justin Deritter MATH 142A - Introduction to Analysis I (A) FA0962 39 71.8% 87.2% 5.47 B (3.05) C+ (2.62)
Stevens, Laura Jeanne MATH 153 - Geometry for Secondary Teacher (A) FA0947 31 100.0% 100.0% 5.37 B+ (3.30) B- (2.79)
Cheng, Li-Tien MATH 170A - Intro Numerical Analys/Linear (A) FA0957 36 94.3% 94.3% 5.78 B+ (3.66) C+ (2.63)
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA0915 10 100.0% 100.0% 6.10 A- (3.80) N/A
Fitzsimmons, Patrick J MATH 180A - Introduction to Probability (A) FA09111 75 82.4% 87.8% 7.10 B (3.26) C+ (2.59)
Abramson, Ian S MATH 181C - Math Statistics-Nonparametric (A) FA0915 12 75.0% 66.7% 4.83 A- (3.73) N/A
Politis, Dimitris MATH 183 - Statistical Methods (A) FA0994 50 68.0% 62.0% 5.26 B (3.26) C+ (2.42)
Tesler, Glenn MATH 184A - Combinatorics (A) FA0927 20 85.0% 100.0% 6.30 B (3.06) B (3.12)
Haff, Leonard R. MATH 193A - Actuarial Mathematics I (A) FA0945 41 95.0% 97.5% 4.65 B+ (3.62) B- (2.92)
Zhang, Yuan MATH 20A - Calculus/Science & Engineering (A) FA09104 48 93.8% 57.4% 5.71 B+ (3.36) C+ (2.59)
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (B) FA09188 119 95.0% 93.3% 5.42 B (3.19) C (2.26)
Yoo, Meesue MATH 20A - Calculus/Science & Engineering (C) FA09166 97 84.4% 43.3% 4.67 B (3.14) B- (2.93)
Abramson, Ian S MATH 20A - Calculus/Science & Engineering (D) FA09170 75 94.5% 94.5% 5.22 B (3.23) C+ (2.68)
Kong, Shengli MATH 20B - Calculus/Science & Engineering (A) FA09287 169 95.8% 91.6% 4.86 B+ (3.43) B- (2.83)
Shopple, John P. MATH 20B - Calculus/Science & Engineering (B) FA09258 181 88.8% 50.6% 4.90 B (3.12) C+ (2.66)
Kadison, Lars MATH 20B - Calculus/Science & Engineering (C) FA09192 121 88.1% 34.7% 4.74 B+ (3.60) B- (2.72)
Volpato, Michael MATH 20B - Calculus/Science & Engineering (D) FA09129 81 90.1% 72.8% 3.71 B+ (3.41) B- (2.74)
Yoo, Meesue MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA09159 128 89.7% 48.4% 4.84 B+ (3.39) B- (2.85)
Lin, James P. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA09282 129 96.9% 90.6% 6.00 B+ (3.54) B- (2.82)
De Winter, Stefaan MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA09271 185 95.1% 96.2% 5.04 B+ (3.63) B- (2.74)
Sterbenz, Jacob MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA09168 114 90.4% 88.6% 5.22 B+ (3.38) B- (2.77)
Okikiolu, Kate MATH 20D - Intro/Differential Equations (A) FA09169 93 73.9% 55.4% 2.98 B+ (3.67) A- (3.71)
Dong, Bin MATH 20D - Intro/Differential Equations (B) FA09159 93 89.1% 79.3% 5.47 B+ (3.41) B (3.03)
Young, Stephen J. MATH 20D - Intro/Differential Equations (C) FA09131 88 73.6% 64.0% 6.09 B (3.13) B- (2.72)
Kadison, Lars MATH 20E - Vector Calculus (A) FA09183 97 78.1% 64.9% 5.80 B+ (3.53) B- (2.86)
Shingel, Tatiana MATH 20F - Linear Algebra (A) FA09186 92 79.1% 55.6% 4.79 B+ (3.41) C+ (2.66)
Nie, Jiawang MATH 20F - Linear Algebra (B) FA09274 99 92.8% 83.7% 4.12 A- (3.75) B+ (3.43)
Meyer, David A. MATH 31AH - Honors Linear Algebra (A) FA0937 37 81.1% 100.0% 8.50 B+ (3.34) B (3.29)
Scheinker, David MATH 3C - Precalculus (A) FA0951 30 96.7% 100.0% 7.37 B (3.30) C+ (2.37)
Harmse, Johannes Andreas MATH 3C - Precalculus (B) FA09101 52 78.0% 84.3% 5.92 B (3.10) C (2.11)
Fredrickson, Karl S MATH 3C - Precalculus (C) FA0936 22 86.4% 86.4% 4.77 B (3.05) D+ (1.56)
Ferry, Michael William MATH 4C - Pre-calculus for Sci & Engn (A) FA0988 65 95.3% 92.3% 7.36 B (3.22) C+ (2.40)
Kreutz-Delgado, Kenneth MATH 87 - Freshman Seminar (A) FA0911 8 100.0% 100.0% 0.50 A (4.00) N/A
Harel, Guershon MATH 87 - Freshman Seminar (B) FA0911 11 90.9% 100.0% 0.50 A (4.00) N/A
Bunch, James R. MATH 87 - Freshman Seminar (C) FA0915 15 93.3% 100.0% 0.50 A (4.00) N/A
Popescu, Cristian D. MATH 104A - Number Theory (A) SU0930 12 90.9% 100.0% 11.95 B (3.09) N/A
Fitzgerald, Carl H. MATH 109 - Mathematical Reasoning (A) SU0932 7 85.7% 42.9% 10.50 B (3.29) N/A
Nguyen, Hieu Trung MATH 10A - Calculus (A) SU0939 12 83.3% 91.7% 5.67 B+ (3.45) N/A
Ferry, Michael William MATH 10B - Calculus (A) SU0940 21 85.0% 100.0% 8.69 B (3.22) N/A
Lust, Jaime Zyouko MATH 10B - Calculus (A) SU0934 14 71.4% 71.4% 7.64 B (3.14) N/A
Slawinski, Michael A. MATH 10C - Calculus (A) SU09110 32 87.5% 78.1% 6.44 B- (2.91) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) SU0945 20 95.0% 80.0% 9.90 B+ (3.45) N/A
Okikiolu, Kate MATH 120B - Applied Complex Analysis (A) SU0913 6 100.0% 50.0% 7.50 A- (3.83) N/A
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) SU0935 21 95.0% 100.0% 10.12 A- (3.70) N/A
Chow, Bennett MATH 20A - Calculus/Science & Engineering (A) SU0914 3 66.7% 100.0% 7.83 B (3.00) N/A
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) SU0925 6 83.3% 66.7% 9.70 B (3.00) N/A
Shenk, Norman A. MATH 20B - Calculus/Science & Engineering (A) SU0946 9 100.0% 100.0% 8.72 B (3.11) N/A
Carbonara, Joaquin Oswaldo MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU0979 26 92.3% 69.2% 7.58 B+ (3.64) N/A
Scullard, Michael Scott MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU0972 26 84.6% 92.3% 10.81 B (3.27) N/A
Lunasin, Evelyn Manalo MATH 20D - Intro/Differential Equations (A) SU0989 37 86.5% 73.0% 8.50 B+ (3.31) N/A
Eggers, John Dietrich MATH 20E - Vector Calculus (A) SU09101 45 88.9% 95.6% 8.14 B+ (3.69) N/A
Lunasin, Evelyn Manalo MATH 20F - Linear Algebra (A) SU0980 36 77.8% 86.1% 9.11 B+ (3.39) N/A
McGown, Kevin J MATH 20F - Linear Algebra (A) SU0959 28 71.4% 53.6% 7.79 B (3.15) N/A
Budreau, Daniel J MATH 3C - Precalculus (A) SU0930 9 66.7% 77.8% 5.61 B (3.29) N/A
Lin, James P. MATH 102 - Applied Linear Algebra (A) SP0987 38 88.9% 75.0% 6.28 B+ (3.35) C+ (2.47)
Agler, Jim MATH 109 - Mathematical Reasoning (A) SP0931 12 75.0% 72.7% 8.33 B (3.09) B- (2.99)
Linshaw, Andrew Ross MATH 109 - Mathematical Reasoning (B) SP0931 22 72.7% 95.5% 4.50 B+ (3.32) B- (2.79)
Nie, Jiawang MATH 10A - Calculus (A) SP09189 80 75.3% 48.0% 4.86 B- (2.92) C+ (2.69)
Kong, Shengli MATH 10B - Calculus (A) SP09184 111 94.6% 91.0% 4.36 B+ (3.39) B- (2.99)
Chan, Ping-Shun MATH 10B - Calculus (B) SP09125 60 71.2% 66.1% 5.01 B- (2.96) C+ (2.45)
Eggers, John Dietrich MATH 10C - Calculus (A) SP09282 129 89.1% 95.3% 4.17 B+ (3.37) C+ (2.67)
Mengi, Emre MATH 10C - Calculus (B) SP09179 55 83.6% 65.5% 3.59 B+ (3.37) C+ (2.69)
Weinkove, Benjamin MATH 10C - Calculus (C) SP09276 127 93.5% 92.7% 3.44 B+ (3.50) B- (2.91)
Schweinsberg, Jason MATH 11 - Elem. Probability & Statistics (A) SP09162 87 84.7% 100.0% 6.34 B+ (3.48) B- (2.81)
Arias-Castro, Ery MATH 11 - Elem. Probability & Statistics (B) SP0971 31 67.7% 61.3% 5.40 B+ (3.31) C+ (2.63)
Meyer, David A. MATH 110 - Intro/Partial Differ Equations (A) SP0954 43 82.9% 97.5% 6.45 B (3.00) B- (2.87)
Meyer, David A. MATH 110A - Intro/Partial Differ Equations (A) SP0954 43 82.9% 97.5% 6.45 B (3.00) B- (2.87)
Baouendi, M Salah MATH 120B - Applied Complex Analysis (A) SP0932 23 100.0% 100.0% 7.95 B+ (3.32) B (3.29)
Stevens, Laura Jeanne MATH 121B - Found of Teachg/Learng Math II (A) SP0922 17 100.0% 100.0% 5.00 B+ (3.40) B (3.23)
Okikiolu, Kate MATH 140B - Foundations of Analysis (A) SP0916 14 85.7% 78.6% 10.21 B (3.27) N/A
Terras, Audrey MATH 140C - Foundations of Analysis (A) SP0915 12 100.0% 91.7% 8.83 A- (3.89) N/A
Terras, Audrey MATH 142B - Advanced Calculus (A) SP0973 35 88.2% 100.0% 5.59 B+ (3.33) B+ (3.60)
VERSTRAETE, JACQUES ALLAN MATH 154 - Discrete Math & Graph Theory (A) SP0941 28 92.9% 100.0% 5.29 B+ (3.31) B- (2.95)
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP0972 46 84.1% 65.9% 4.37 B+ (3.41) B- (2.98)
Bunch, James R. MATH 170B - Numerical Analysis (A) SP095 5 100.0% 100.0% 6.10 A- (3.80) N/A
Cheng, Li-Tien MATH 170C - Numericl Ordinary Diff Equatns (A) SP0914 7 100.0% 100.0% 5.93 B+ (3.43) N/A
Politis, Dimitris MATH 181B - Intro/Mathematical Statistics (A) SP0934 18 100.0% 55.6% 6.17 B+ (3.65) B+ (3.33)
Garsia, Adriano M. MATH 183 - Statistical Methods (A) SP0977 52 72.5% 47.1% 3.99 B (3.18) B (3.09)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP0916 13 91.7% 91.7% 8.50 A- (3.75) N/A
Garsia, Adriano M. MATH 187 - Introduction to Cryptography (A) SP0967 37 89.2% 54.1% 3.58 B (3.27) B (3.02)
Eldredge, Nathaniel Gilbert Bartsch MATH 20A - Calculus/Science & Engineering (A) SP0996 43 82.9% 70.7% 5.60 B- (2.84) C+ (2.55)
Volpato, Michael MATH 20B - Calculus/Science & Engineering (A) SP0993 41 70.0% 82.5% 5.27 B (3.06) C+ (2.54)
Lunasin, Evelyn Manalo MATH 20B - Calculus/Science & Engineering (B) SP09177 91 84.3% 86.5% 5.69 B (3.24) C+ (2.53)
Li, Bo MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP09175 70 86.4% 77.3% 4.41 B (3.22) B- (2.71)
Paparoditis, Efstathios MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP09263 83 84.3% 65.1% 4.33 B+ (3.34) B- (2.84)
Szypowski, Ryan S. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP09281 162 90.1% 96.9% 5.03 B+ (3.39) C+ (2.66)
Kong, Shengli MATH 20D - Intro/Differential Equations (A) SP09117 53 86.8% 98.1% 4.42 B+ (3.63) B- (3.00)
Eggers, John Dietrich MATH 20D - Intro/Differential Equations (B) SP09185 122 88.2% 97.5% 5.08 B+ (3.34) B- (2.89)
Lunasin, Evelyn Manalo MATH 20D - Intro/Differential Equations (C) SP09136 84 81.5% 88.9% 4.89 B+ (3.39) B- (2.79)
Szypowski, Ryan S. MATH 20E - Vector Calculus (A) SP09197 106 81.1% 97.2% 4.92 B+ (3.30) B- (2.78)
VERSTRAETE, JACQUES ALLAN MATH 20E - Vector Calculus (B) SP09134 69 85.3% 92.6% 4.88 B+ (3.38) B- (2.83)
Kemkes, Graeme David MATH 20F - Linear Algebra (A) SP09189 60 83.1% 93.1% 4.40 B+ (3.48) C+ (2.66)
Chan, Ping-Shun MATH 20F - Linear Algebra (B) SP09289 150 88.3% 93.8% 3.96 B+ (3.45) B- (2.74)
Rabin, Jeffrey Mark MATH 31CH - Honors Vector Calculus (A) SP0919 19 89.5% 100.0% 6.29 B+ (3.39) N/A
Bunch, James R. MATH 87 - Freshman Seminar (A) SP0919 19 94.7% 94.7% 0.50 N/A N/A
Abramson, Ian S MATH 87 - Freshman Seminar (B) SP0911 9 100.0% 100.0% 0.50 N/A N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP0924 22 100.0% 100.0% 1.41 A- (3.91) A (4.00)
Popescu, Cristian D. MATH 100B - Modern Algebra (A) WI0926 19 94.7% 100.0% 9.03 B (3.18) B+ (3.34)
Linshaw, Andrew Ross MATH 102 - Applied Linear Algebra (A) WI0967 33 75.8% 66.7% 6.69 B (3.19) C+ (2.65)
Driver, Bruce K MATH 103A - Applied Modern Algebra (A) WI0912 7 100.0% 100.0% 7.07 B+ (3.57) N/A
Evans, Ronald J. MATH 103B - Applied Modern Algebra (A) WI0925 17 87.5% 93.8% 4.62 B+ (3.35) B+ (3.35)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) WI0933 25 96.0% 92.0% 4.98 B+ (3.48) B- (2.83)
Volpato, Michael MATH 109 - Mathematical Reasoning (B) WI0935 24 66.7% 66.7% 5.92 B- (2.91) B- (2.75)
Arnold, Robert Bruce MATH 10A - Calculus (B) WI09167 72 95.8% 95.8% 5.22 B- (2.95) D+ (1.54)
Lunasin, Evelyn Manalo MATH 10A - Calculus (C) WI09186 120 94.9% 94.1% 4.53 B (3.27) C+ (2.68)
Eggers, John Dietrich MATH 10B - Calculus (A) WI09251 92 88.2% 82.4% 4.68 B (3.24) C+ (2.64)
Volpato, Michael MATH 10B - Calculus (B) WI09172 60 81.0% 44.1% 3.67 B (3.25) C+ (2.60)
Kong, Shengli MATH 10B - Calculus (C) WI09186 101 95.0% 94.0% 3.95 B+ (3.45) B- (2.92)
Lunasin, Evelyn Manalo MATH 10B - Calculus (D) WI09188 136 93.2% 91.0% 4.79 B+ (3.46) B- (2.83)
Kitaev, Sergey MATH 10C - Calculus (A) WI09119 55 90.4% 88.7% 4.12 B+ (3.47) C+ (2.57)
Chan, Ping-Shun MATH 10C - Calculus (B) WI09177 96 85.7% 92.3% 3.93 B+ (3.38) B- (2.79)
Kong, Shengli MATH 10C - Calculus (C) WI09300 130 97.7% 96.9% 3.35 B+ (3.68) B (3.12)
Sterbenz, Jacob MATH 110 - Intro/Partial Differ Equations (A) WI0920 16 87.5% 81.3% 6.25 B (3.29) B (3.11)
Sterbenz, Jacob MATH 110A - Intro/Partial Differ Equations (A) WI0920 16 87.5% 81.3% 6.25 B (3.29) B (3.11)
Baouendi, M Salah MATH 120A - Elements of Complex Analysis (A) WI0946 32 93.5% 96.8% 6.25 B+ (3.31) B- (2.75)
Stevens, Laura Jeanne MATH 121A - Found of Teachg/Learng Math I (A) WI0923 19 94.4% 100.0% 4.08 B+ (3.38) B+ (3.41)
Okikiolu, Kate MATH 130A - Ordinary Differential Equation (A) WI0956 26 65.4% 76.9% 5.27 B+ (3.38) B+ (3.38)
Okikiolu, Kate MATH 140A - Foundations of Analysis (A) WI0924 22 86.4% 90.5% 10.14 B (3.05) B+ (3.40)
Eggers, John Dietrich MATH 140B - Foundations of Analysis (A) WI0925 22 72.7% 95.5% 8.05 B+ (3.30) B- (2.80)
Terras, Audrey MATH 142A - Advanced Calculus (A) WI0970 37 86.1% 88.9% 5.06 B+ (3.40) B+ (3.47)
Agler, Jim MATH 142B - Advanced Calculus (A) WI0932 27 40.7% 73.1% 5.98 B- (2.72) B (3.28)
Mengi, Emre MATH 170A - Numerical Linear Algebra (A) WI0913 11 100.0% 100.0% 5.05 B+ (3.45) N/A
Nie, Jiawang MATH 170B - Numerical Analysis (A) WI0924 19 78.9% 100.0% 8.83 B (3.13) B- (2.81)
Gill, Philip E. MATH 171A - Mathematical Programming (A) WI0922 14 92.9% 78.6% 5.50 B+ (3.43) B+ (3.43)
Williams, Ruth J MATH 180A - Introduction to Probability (A) WI0929 19 89.5% 89.5% 6.82 B+ (3.35) C+ (2.62)
Rothschild, Linda Preiss MATH 180B - Intro/Stochastic Processes I (A) WI0935 24 95.8% 83.3% 6.17 B+ (3.57) B (3.18)
Haff, Leonard R. MATH 181A - Intro/Mathematical Statistics (A) WI0953 37 97.3% 91.9% 5.26 B+ (3.56) B (3.09)
Jehring, Kristin Elizabeth MATH 183 - Statistical Methods (A) WI0963 32 80.0% 90.3% 6.56 B (3.06) C+ (2.44)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI0913 7 100.0% 100.0% 4.79 B+ (3.67) N/A
Williams, Ruth J MATH 194 - The Mathematics of Finance (A) WI0943 38 100.0% 100.0% 4.76 B+ (3.64) B (3.05)
Szypowski, Ryan S. MATH 20A - Calculus/Science & Engineering (A) WI09212 130 88.5% 94.6% 5.22 B (3.16) C+ (2.50)
Rogalski, Daniel MATH 20B - Calculus/Science & Engineering (A) WI09304 188 90.9% 85.5% 4.93 B (3.30) B- (2.71)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (B) WI09279 183 93.3% 99.4% 4.95 B (3.21) C+ (2.58)
Ebenfelt, Peter MATH 20B - Calculus/Science & Engineering (C) WI09157 62 82.0% 86.9% 4.89 B (3.18) B- (2.75)
Agler, Jim MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI09176 89 90.8% 70.5% 5.05 B (3.30) B (3.01)
Fitzsimmons, Patrick J MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI09300 230 91.4% 95.0% 4.44 B+ (3.43) B- (2.96)
Chan, Ping-Shun MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI09193 111 91.0% 96.4% 3.58 B+ (3.39) B- (2.77)
Li, Bo MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI09209 109 82.1% 51.0% 5.09 B- (2.97) C+ (2.62)
Kitchloo, Nitya MATH 20D - Intro/Differential Equations (A) WI09192 129 93.4% 95.1% 6.10 B+ (3.31) B- (2.81)
Beeson, Amanda Marieke MATH 20D - Intro/Differential Equations (B) WI09157 80 80.0% 76.3% 5.28 B+ (3.40) C+ (2.64)
Chow, Bennett MATH 20D - Intro/Differential Equations (C) WI0962 34 87.5% 81.8% 5.50 B+ (3.38) B- (2.98)
Enright, Thomas J. MATH 20E - Vector Calculus (A) WI09175 91 81.1% 78.9% 5.28 B+ (3.35) C+ (2.37)
Sterbenz, Jacob MATH 20E - Vector Calculus (B) WI09112 52 82.4% 92.2% 5.79 B+ (3.38) B- (2.79)
Helton, John W. MATH 20F - Linear Algebra (A) WI09138 27 73.1% 34.6% 4.43 B+ (3.38) C+ (2.64)
Li, Bo MATH 20F - Linear Algebra (B) WI09155 81 92.2% 84.4% 5.19 B+ (3.44) C+ (2.63)
Evans, Ronald J. MATH 20F - Linear Algebra (C) WI09187 111 83.5% 89.0% 4.82 B+ (3.39) B- (2.81)
Rabin, Jeffrey Mark MATH 31BH - Honors Multivariable Calculus (A) WI0923 18 94.4% 100.0% 6.61 B (3.22) B (3.27)
Szypowski, Ryan S. MATH 3C - Precalculus (A) WI0942 16 37.5% 87.5% 7.38 B (3.00) C (2.20)
Cooper, Benjamin James MATH 3C - Precalculus (B) WI0946 27 55.6% 59.3% 8.50 B- (2.71) C- (1.89)
Harris, Richard Neal MATH 4C - Pre-calculus for Sci & Engn (A) WI0953 33 100.0% 100.0% 4.62 B (3.26) C (2.17)
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI0924 17 100.0% 100.0% 2.38 A (4.00) A- (3.98)
Popescu, Cristian D. MATH 100A - Modern Algebra (A) FA0842 34 85.3% 97.1% 8.74 B (3.19) C+ (2.57)
Szypowski, Ryan S. MATH 102 - Applied Linear Algebra (A) FA0863 36 94.1% 97.1% 6.17 B+ (3.36) B- (2.88)
Evans, Ronald J. MATH 103A - Applied Modern Algebra (A) FA0834 24 83.3% 95.8% 5.17 B+ (3.39) B- (2.78)
Wallach, Nolan MATH 104A - Number Theory (A) FA0813 9 66.7% 88.9% 7.39 B- (2.89) N/A
Weinkove, Benjamin MATH 109 - Mathematical Reasoning (A) FA0832 20 94.7% 94.7% 6.20 B (3.28) B (3.12)
Abramson, Ian S MATH 109 - Mathematical Reasoning (B) FA0838 22 77.3% 90.9% 5.05 B (3.25) B (3.12)
Ebenfelt, Peter MATH 109 - Mathematical Reasoning (C) FA0829 17 88.2% 100.0% 6.26 B (3.06) B (3.00)
Roberts, Justin Deritter MATH 10A - Calculus (A) FA08212 88 89.8% 79.5% 3.99 B+ (3.37) B- (2.88)
Kong, Shengli MATH 10A - Calculus (B) FA08188 61 100.0% 88.3% 3.53 A- (3.71) B (3.09)
Lunasin, Evelyn Manalo MATH 10A - Calculus (C) FA08182 106 94.2% 89.4% 3.72 B+ (3.44) B- (2.77)
Stevens, Laura Jeanne MATH 10A - Calculus (D) FA08197 141 97.9% 100.0% 4.07 B+ (3.59) B (3.07)
Horn, Paul Kenneth MATH 10B - Calculus (A) FA08131 87 94.1% 95.3% 4.36 B (3.22) C+ (2.59)
Fitzsimmons, Patrick J MATH 10B - Calculus (B) FA08181 103 89.1% 93.0% 4.69 B+ (3.54) C+ (2.65)
Lunasin, Evelyn Manalo MATH 10B - Calculus (C) FA08217 131 93.0% 92.1% 3.98 B+ (3.67) C+ (2.64)
Kong, Shengli MATH 10C - Calculus (A) FA08183 52 98.1% 98.1% 4.27 A- (3.76) B- (2.97)
Bucicovschi, Orest MATH 10C - Calculus (B) FA08155 67 52.2% 32.8% 5.40 B (3.22) C+ (2.58)
Chan, Ping-Shun MATH 10C - Calculus (C) FA08124 73 74.0% 89.0% 5.34 B+ (3.36) B- (2.80)
Helton, John W. MATH 120A - Elements of Complex Analysis (A) FA0820 19 94.7% 78.9% 6.82 B+ (3.32) B- (2.72)
Gan, Wee T. MATH 140A - Foundations of Analysis (A) FA0836 24 62.5% 100.0% 8.08 B (3.26) C+ (2.63)
Wulbert, Daniel E. MATH 142A - Advanced Calculus (A) FA0851 32 90.6% 96.9% 6.63 B (3.06) B- (2.72)
Graham, Fan Chung MATH 152 - Applicable Math and Computing (A) FA0825 13 91.7% 91.7% 4.50 B (3.27) B+ (3.31)
Stevens, Laura Jeanne MATH 153 - Geometry for Secondary Teacher (A) FA0830 25 100.0% 100.0% 5.14 B+ (3.46) C+ (2.70)
Nie, Jiawang MATH 170A - Numerical Linear Algebra (A) FA0838 31 80.0% 86.7% 6.69 B+ (3.36) B (3.13)
Rothschild, Linda Preiss MATH 180A - Introduction to Probability (A) FA0874 51 100.0% 88.0% 5.74 B+ (3.53) B (3.02)
Tesler, Glenn MATH 184A - Combinatorics (A) FA0823 19 100.0% 100.0% 6.39 B+ (3.33) B (3.00)
Lin, James P. MATH 190 - Introduction to Topology (A) FA088 5 80.0% 100.0% 5.70 B+ (3.67) N/A
Fitzgerald, Carl H. MATH 192 - Senior Seminar in Mathematics (A) FA087 6 100.0% 100.0% 0.83 N/A N/A
Eggers, John Dietrich MATH 20A - Calculus/Science & Engineering (A) FA08193 78 92.2% 93.5% 5.69 B- (2.99) C (2.28)
Baouendi, M Salah MATH 20A - Calculus/Science & Engineering (B) FA08183 97 86.3% 88.3% 6.17 B- (2.98) C (2.26)
Volpato, Michael MATH 20A - Calculus/Science & Engineering (C) FA08151 41 81.6% 61.5% 6.79 B- (2.84) C+ (2.64)
Abramson, Ian S MATH 20A - Calculus/Science & Engineering (D) FA08173 62 96.8% 75.4% 4.85 B+ (3.50) C+ (2.64)
Chan, Ping-Shun MATH 20B - Calculus/Science & Engineering (A) FA08233 150 97.2% 95.2% 5.12 B+ (3.49) B- (2.80)
Chow, Bennett MATH 20B - Calculus/Science & Engineering (B) FA08174 108 88.9% 76.9% 4.78 B (3.25) B- (2.79)
Linshaw, Andrew Ross MATH 20B - Calculus/Science & Engineering (C) FA08187 134 79.1% 51.9% 4.76 B (3.14) C+ (2.50)
Tesler, Glenn MATH 20B - Calculus/Science & Engineering (D) FA08195 117 91.1% 89.5% 5.34 B (3.27) C+ (2.53)
Bucicovschi, Orest MATH 20B - Calculus/Science & Engineering (E) FA08120 77 76.6% 53.2% 5.59 B (3.15) B- (2.80)
Kitchloo, Nitya MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA08272 176 93.8% 98.3% 4.93 B+ (3.46) B- (2.79)
Horton, Matthew D. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA08274 154 93.4% 98.0% 5.60 B+ (3.32) B- (2.82)
Evans, Ronald J. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA08260 159 84.2% 91.5% 5.14 B+ (3.35) C+ (2.70)
Ni, Lei MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA08137 78 86.8% 65.8% 4.63 B+ (3.30) C+ (2.32)
Eggers, John Dietrich MATH 20D - Intro/Differential Equations (A) FA08193 124 85.1% 96.7% 6.39 B+ (3.44) C+ (2.63)
Oprea, Dragos N. MATH 20D - Intro/Differential Equations (B) FA08185 133 85.5% 97.7% 6.12 B+ (3.38) B- (2.83)
Gross, Mark W. MATH 20D - Intro/Differential Equations (C) FA0894 42 81.0% 71.4% 7.07 B (3.19) C+ (2.57)
Linshaw, Andrew Ross MATH 20E - Vector Calculus (A) FA08163 74 87.8% 83.6% 6.20 B+ (3.56) C+ (2.63)
VERSTRAETE, JACQUES ALLAN MATH 20E - Vector Calculus (B) FA08180 109 70.5% 85.4% 5.58 B (3.25) C+ (2.52)
Szypowski, Ryan S. MATH 20F - Linear Algebra (A) FA08138 64 87.1% 93.5% 4.89 B+ (3.49) B- (2.76)
Mengi, Emre MATH 20F - Linear Algebra (B) FA0865 24 90.9% 86.4% 4.83 B+ (3.59) B- (2.71)
Armel, Jonathan J. MATH 20F - Linear Algebra (C) FA08146 52 76.5% 86.3% 5.85 B (3.24) B- (2.71)
Rabin, Jeffrey Mark MATH 31AH - Honors Linear Algebra (A) FA0833 21 76.2% 100.0% 7.64 B (3.10) B (3.21)
Tressler, Eric P. MATH 3C - Precalculus (A) FA0842 27 70.4% 68.0% 6.94 B- (2.88) C (2.01)
McAllaster, Daniel Paul MATH 3C - Precalculus (B) FA0895 51 56.0% 51.0% 6.70 B- (2.74) C- (1.80)
Kinnally, Michael Sean MATH 3C - Precalculus (C) FA0846 22 36.4% 36.4% 7.86 C+ (2.52) C- (1.98)
Arnold, Robert Bruce MATH 4C - Pre-calculus for Sci & Engn (A) FA0898 69 97.1% 98.6% 6.76 B- (2.88) C- (1.70)
Enright, Thomas J. MATH 104A - Number Theory (A) SU0838 29 96.4% 89.7% 6.22 B+ (3.48) N/A
Fitzgerald, Carl H. MATH 109 - Mathematical Reasoning (A) SU0820 18 82.4% 88.2% 9.25 B (3.22) N/A
Shopple, John P. MATH 10A - Calculus (A) SU0832 25 91.7% 95.8% 5.70 B+ (3.33) N/A
Lunasin, Evelyn Manalo MATH 10B - Calculus (A) SU0839 33 72.7% 84.8% 6.74 B (3.09) N/A
Lunasin, Evelyn Manalo MATH 10B - Calculus (A) SU0827 23 91.3% 91.3% 6.50 B- (2.95) N/A
Jehring, Kristin Elizabeth MATH 10C - Calculus (A) SU08122 50 73.5% 81.6% 6.38 B- (2.96) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) SU0839 32 93.8% 87.1% 9.44 B (3.23) N/A
Haff, Leonard R. MATH 168A - Topics/Applied Math-Comp Sci (A) SU0830 25 95.8% 100.0% 6.98 B+ (3.60) N/A
Niedermaier, Andrew Gerard MATH 20A - Calculus/Science & Engineering (A) SU0825 16 93.8% 100.0% 7.25 B- (2.80) N/A
Armel, Jonathan J. MATH 20B - Calculus/Science & Engineering (A) SU0832 18 61.1% 88.9% 8.72 B- (2.89) N/A
Shenk, Norman A. MATH 20B - Calculus/Science & Engineering (A) SU0841 29 89.7% 89.7% 7.05 B (3.29) N/A
Pesic, Vladimir N. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU0843 18 94.1% 100.0% 8.62 B (3.00) N/A
Shenk, Norman A. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU0872 55 90.9% 83.6% 6.83 B+ (3.31) N/A
Han, Ilseop MATH 20D - Intro/Differential Equations (A) SU0861 39 87.2% 79.5% 8.35 B (3.26) N/A
Beeson, Amanda Marieke MATH 20F - Linear Algebra (A) SU0870 50 89.8% 91.8% 6.30 B+ (3.51) N/A
Horn, Paul Kenneth MATH 20F - Linear Algebra (A) SU0874 40 92.1% 97.4% 7.05 B+ (3.44) N/A
Fuller, Evan David MATH 3C - Precalculus (A) SU0825 14 78.6% 85.7% 11.21 B- (2.75) N/A
Wenzl, Hans G MATH 102 - Applied Linear Algebra (A) SP0855 36 65.7% 65.7% 6.56 B (3.26) C+ (2.34)
Bender, Edward A. MATH 103B - Applied Modern Algebra (A) SP0817 9 44.4% 44.4% 4.50 B (3.00) N/A
Evans, Ronald J. MATH 104A - Number Theory (A) SP0839 28 92.9% 100.0% 5.83 B (3.30) B (3.08)
Chow, Bennett MATH 109 - Mathematical Reasoning (A) SP0819 17 93.8% 87.5% 7.21 B (3.24) N/A
Horn, Larissa Dawn MATH 109 - Mathematical Reasoning (B) SP0831 23 91.3% 95.7% 8.07 B (3.04) B- (2.91)
Knutson, Allen MATH 109 - Mathematical Reasoning (C) SP0823 15 100.0% 100.0% 4.23 B+ (3.36) B- (2.87)
Eggers, John Dietrich MATH 10A - Calculus (A) SP08182 53 88.5% 96.2% 4.80 B (3.08) C (2.22)
Lunasin, Evelyn Manalo MATH 10B - Calculus (A) SP08211 102 91.0% 90.0% 4.72 B (3.30) C+ (2.54)
VERSTRAETE, JACQUES ALLAN MATH 10B - Calculus (B) SP08126 54 72.0% 84.0% 3.88 B (3.13) B- (2.78)
Farina, John D. MATH 10C - Calculus (A) SP08273 118 78.6% 65.3% 4.22 B (3.15) B- (2.79)
Roberts, Justin Deritter MATH 10C - Calculus (B) SP08177 109 70.8% 68.6% 4.26 B (3.19) B- (2.80)
Sterbenz, Jacob MATH 10C - Calculus (C) SP08176 76 72.4% 80.3% 4.39 B+ (3.35) C+ (2.68)
Schweinsberg, Jason MATH 11 - Elem. Probability & Statistics (A) SP08196 119 81.0% 91.4% 6.38 B+ (3.46) B- (2.79)
Agler, Jim MATH 120B - Applied Complex Analysis (A) SP0822 15 100.0% 100.0% 5.83 B+ (3.50) B (3.23)
Harel, Guershon MATH 121B - Found of Teachg/Learng Math II (A) SP0811 10 90.0% 100.0% 4.90 A- (3.80) N/A
Okikiolu, Kate MATH 140B - Foundations of Analysis (A) SP0819 17 94.1% 94.1% 6.97 B+ (3.47) N/A
Gross, Mark W. MATH 140C - Foundations of Analysis (A) SP089 8 87.5% 100.0% 8.50 A- (3.71) N/A
Terras, Audrey MATH 142B - Advanced Calculus (A) SP0844 33 84.8% 87.9% 5.77 B+ (3.61) B+ (3.55)
Roberts, Justin Deritter MATH 150B - Calculus on Manifolds (A) SP086 5 100.0% 100.0% 4.90 B+ (3.67) N/A
Graham, Fan Chung MATH 152 - Applicable Math and Computing (A) SP0855 37 94.4% 55.6% 4.99 B+ (3.51) B (3.07)
Fitzgerald, Carl H. MATH 163 - History of Mathematics (A) SP0865 34 91.2% 76.5% 4.09 B+ (3.47) B- (2.76)
Bunch, James R. MATH 170B - Numerical Analysis (A) SP0816 16 93.3% 86.7% 7.25 B+ (3.33) N/A
Mengi, Emre MATH 171B - Mathematical Programming (A) SP087 7 100.0% 100.0% 6.50 B (3.00) N/A
Driver, Bruce K MATH 180C - Introduction to Probability (A) SP0818 10 90.0% 100.0% 5.30 B+ (3.63) N/A
Xu, Ronghui MATH 181B - Intro/Mathematical Statistics (A) SP0831 24 95.7% 82.6% 4.92 A- (3.91) B (3.05)
Gatzouras, Dimitrios MATH 183 - Statistical Methods (A) SP0856 34 76.5% 88.2% 5.77 B (3.06) B- (2.70)
Arias-Castro, Ery MATH 185 - Intro to Computational Stats (A) SP0814 9 88.9% 100.0% 3.39 A- (3.71) N/A
Farina, John D. MATH 187 - Introduction to Cryptography (A) SP0897 72 84.5% 85.9% 3.81 B+ (3.49) B+ (3.63)
Rotar, Vladimir MATH 193B - Actuarial Mathematics (A) SP0828 17 88.2% 94.1% 4.03 B+ (3.59) B (3.08)
Yacobi, Oded MATH 20A - Calculus/Science & Engineering (A) SP0895 35 94.3% 97.1% 6.10 B (3.18) B- (2.75)
Stevens, Laura Jeanne MATH 20B - Calculus/Science & Engineering (A) SP08188 105 90.1% 100.0% 5.53 B (3.12) C+ (2.63)
Knutson, Allen MATH 20B - Calculus/Science & Engineering (B) SP08104 24 79.2% 56.5% 4.24 B (3.04) B- (2.79)
Chan, Ping-Shun MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SP08147 49 75.5% 67.3% 5.40 B (3.17) C+ (2.42)
Eggers, John Dietrich MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) SP08181 106 81.7% 94.2% 5.18 B (3.22) C+ (2.39)
Cioaba, Sebastian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) SP0899 45 88.9% 91.1% 5.30 B (3.23) C+ (2.64)
Tesler, Glenn MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) SP08189 68 82.4% 91.2% 5.13 B (3.18) C (2.29)
Bender, Edward A. MATH 20D - Intro/Differential Equations (A) SP0844 13 76.9% 76.9% 6.19 B (3.23) B- (2.71)
Nagy, Gabriel MATH 20D - Intro/Differential Equations (B) SP08174 73 93.1% 88.9% 4.80 B+ (3.31) B- (2.76)
Terras, Audrey MATH 20D - Intro/Differential Equations (C) SP08165 56 60.7% 64.3% 5.36 B+ (3.35) B+ (3.45)
Wenzl, Hans G MATH 20E - Vector Calculus (A) SP08116 59 64.4% 49.2% 5.78 B+ (3.34) C+ (2.42)
Mohanty, Yana Z MATH 20E - Vector Calculus (B) SP08191 94 64.8% 86.8% 5.61 B (3.25) B- (2.72)
Okikiolu, Kate MATH 20F - Linear Algebra (A) SP08204 81 68.4% 69.6% 6.09 B (3.26) B- (2.95)
Li, Bo MATH 20F - Linear Algebra (B) SP08163 89 89.9% 87.6% 4.25 B+ (3.46) C+ (2.54)
Linshaw, Andrew Ross MATH 20F - Linear Algebra (C) SP08149 71 91.2% 75.0% 4.19 B+ (3.32) C+ (2.66)
Bunch, James R. MATH 87 - Freshman Seminar (A) SP0819 17 100.0% 100.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) SP0826 17 100.0% 100.0% 1.21 A (4.00) A (4.00)
Evans, Ronald J. MATH 102 - Applied Linear Algebra (A) WI0867 36 75.0% 77.8% 4.50 B (3.24) B (3.04)
Zelmanov, Efim I MATH 103A - Applied Modern Algebra (A) WI0832 24 62.5% 75.0% 5.17 B (3.13) B- (2.97)
Rogalski, Daniel MATH 103B - Applied Modern Algebra (A) WI0829 27 85.2% 100.0% 6.87 B (3.20) B- (2.91)
Cioaba, Sebastian MATH 109 - Mathematical Reasoning (A) WI0839 26 96.2% 92.3% 5.04 B (3.12) B- (2.78)
Small, Lance W. MATH 109 - Mathematical Reasoning (B) WI0836 32 83.9% 81.3% 7.00 B- (2.90) B (3.09)
Arnold, Robert Bruce MATH 10A - Calculus (A) WI08155 84 83.1% 100.0% 5.08 B- (2.93) C (2.03)
Chan, Ping-Shun MATH 10A - Calculus (B) WI0893 34 80.6% 83.9% 4.14 B (3.10) C+ (2.47)
Prasad, Dipendra MATH 10A - Calculus (C) WI08128 91 71.3% 27.9% 3.95 B (3.07) C+ (2.57)
Stevens, Laura Jeanne MATH 10B - Calculus (A) WI08276 142 93.5% 98.6% 4.70 B+ (3.50) C+ (2.67)
Prasad, Dipendra MATH 10B - Calculus (B) WI08185 32 87.1% 25.8% 3.79 B+ (3.42) C+ (2.60)
Lunasin, Evelyn Manalo MATH 10B - Calculus (C) WI08116 57 87.0% 77.8% 4.06 B+ (3.45) B- (2.73)
Grice, Jon Reinold MATH 10B - Calculus (D) WI08134 52 80.8% 67.3% 3.68 B+ (3.35) C+ (2.65)
Linshaw, Andrew Ross MATH 10C - Calculus (A) WI08293 76 76.0% 56.0% 3.76 B+ (3.31) C+ (2.60)
Klep, Igor MATH 10C - Calculus (B) WI08229 116 79.3% 81.0% 4.50 B (3.28) C+ (2.61)
Wenzl, Hans G MATH 110 - Intro/Partial Differ Equations (A) WI0824 18 55.6% 83.3% 5.28 B (3.13) B- (2.90)
Wenzl, Hans G MATH 110A - Intro/Partial Differ Equations (A) WI0824 18 55.6% 83.3% 5.28 B (3.13) B- (2.90)
Farina, John D. MATH 120A - Elements of Complex Analysis (A) WI0846 29 75.9% 86.2% 5.60 B (3.26) B- (2.76)
Harel, Guershon MATH 121A - Found of Teachg/Learng Math I (A) WI0819 18 88.2% 100.0% 4.61 B+ (3.53) N/A
Rabin, Jeffrey Mark MATH 130B - Ordinary Differential Equation (A) WI0812 11 100.0% 100.0% 5.77 B+ (3.45) N/A
Okikiolu, Kate MATH 140A - Foundations of Analysis (A) WI0821 17 82.4% 88.2% 7.75 B (3.25) B- (3.00)
Gross, Mark W. MATH 140B - Foundations of Analysis (A) WI0814 13 84.6% 100.0% 7.12 B+ (3.58) N/A
Eggers, John Dietrich MATH 142A - Advanced Calculus (A) WI0844 37 73.0% 94.6% 6.61 B- (2.88) C+ (2.42)
Agler, Jim MATH 142B - Advanced Calculus (A) WI0822 16 62.5% 75.0% 8.50 B- (2.93) B (3.14)
Lin, James P. MATH 150A - Differential Geometry (A) WI0818 11 63.6% 90.9% 6.86 B+ (3.50) N/A
Bunch, James R. MATH 170A - Numerical Linear Algebra (A) WI0816 13 100.0% 83.3% 6.67 B+ (3.42) N/A
Cheng, Li-Tien MATH 170B - Numerical Analysis (A) WI0815 11 100.0% 100.0% 6.68 B+ (3.55) N/A
Meyer, David A. MATH 180A - Introduction to Probability (A) WI0835 14 64.3% 85.7% 7.21 B (3.00) B- (2.88)
Haff, Leonard R. MATH 181A - Intro/Mathematical Statistics (A) WI0852 33 97.0% 97.0% 4.00 B+ (3.42) B- (2.92)
Gatzouras, Dimitrios MATH 183 - Statistical Methods (A) WI0837 28 75.0% 89.3% 5.50 B (3.12) C+ (2.61)
Tesler, Glenn MATH 186 - Probablty Stats/Bioinformatics (A) WI0818 16 87.5% 87.5% 6.88 B+ (3.38) N/A
Rotar, Vladimir MATH 193A - Actuarial Mathematics (A) WI0841 24 78.3% 65.2% 4.00 B+ (3.46) B- (2.90)
Fitzsimmons, Patrick J MATH 194 - The Mathematics of Finance (A) WI0831 25 91.7% 100.0% 3.58 B+ (3.32) B- (2.97)
Mohanty, Yana Z MATH 20A - Calculus/Science & Engineering (A) WI08265 131 85.3% 65.6% 5.78 B- (2.97) C (2.14)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) WI08260 125 83.6% 95.9% 5.44 B (3.02) C+ (2.39)
Bender, Edward A. MATH 20B - Calculus/Science & Engineering (B) WI0858 33 72.7% 33.3% 4.50 B- (2.97) C+ (2.43)
Linshaw, Andrew Ross MATH 20B - Calculus/Science & Engineering (C) WI0885 34 82.4% 73.5% 4.97 B- (2.88) C+ (2.40)
Kitchloo, Nitya MATH 20B - Calculus/Science & Engineering (D) WI08228 130 92.2% 95.3% 5.48 B (3.09) B- (2.72)
Bender, Edward A. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) WI08108 56 70.9% 38.2% 4.50 B (3.09) C+ (2.62)
Cioaba, Sebastian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) WI08207 119 81.9% 93.1% 5.21 B (3.03) B- (2.73)
Chan, Ping-Shun MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) WI08195 85 84.5% 74.7% 4.36 B (3.16) B- (2.90)
Gatzouras, Dimitrios MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) WI08172 96 78.5% 69.9% 4.94 B (3.29) C+ (2.70)
Evans, Ronald J. MATH 20C - Calculus&Analyt Geom/Sci&Engnr (E) WI08170 98 88.5% 86.2% 4.34 B (3.19) B- (2.89)
Ebenfelt, Peter MATH 20D - Intro/Differential Equations (A) WI08130 82 87.7% 95.1% 5.65 B+ (3.41) B- (2.91)
Farina, John D. MATH 20D - Intro/Differential Equations (B) WI08214 134 74.2% 78.0% 5.69 B+ (3.44) B- (2.80)
Rogalski, Daniel MATH 20D - Intro/Differential Equations (C) WI08164 110 86.1% 91.8% 5.62 B+ (3.46) B- (2.81)
Enright, Thomas J. MATH 20E - Vector Calculus (B) WI08164 87 76.5% 67.1% 5.64 B+ (3.33) C+ (2.58)
Lunasin, Evelyn Manalo MATH 20F - Linear Algebra (A) WI08169 97 85.4% 89.6% 4.40 B (3.27) B- (2.95)
Nagy, Gabriel MATH 20F - Linear Algebra (B) WI08190 80 91.3% 91.3% 4.63 B+ (3.50) C+ (2.64)
Mengi, Emre MATH 20F - Linear Algebra (C) WI08128 52 76.5% 70.6% 5.96 B (3.25) C+ (2.65)
Eldredge, Nathaniel Gilbert Bartsch MATH 3C - Precalculus (A) WI0840 12 81.8% 81.8% 5.67 B- (2.80) C- (1.80)
Jehring, Kristin Elizabeth MATH 3C - Precalculus (B) WI0851 18 52.9% 88.2% 7.06 C+ (2.50) C- (1.82)
Armel, Jonathan J. MATH 4C - Pre-calculus for Sci & Engn (A) WI0846 43 75.6% 82.5% 5.99 C (2.12) D+ (1.67)
Harel, Guershon MATH 87 - Freshman Seminar (A) WI0810 10 100.0% 100.0% 0.70 A (4.00) N/A
Stevens, Laura Jeanne MATH 95 - Introduction to Teaching Math (A) WI0825 23 100.0% 100.0% 2.33 A (4.00) A (4.00)
Evans, Ronald J. MATH 100A - Modern Algebra (A) FA0725 21 85.7% 95.2% 6.69 B+ (3.43) B- (2.97)
Clark, David A. MATH 102 - Applied Linear Algebra (A) FA0743 25 84.0% 96.0% 5.75 B (3.17) C+ (2.60)
Rogalski, Daniel MATH 103A - Applied Modern Algebra (A) FA0732 26 100.0% 100.0% 6.81 B+ (3.48) B- (2.77)
Pommersheim, James MATH 109 - Mathematical Reasoning (A) FA0737 13 92.3% 100.0% 8.35 B (3.08) B- (2.98)
Farina, John D. MATH 109 - Mathematical Reasoning (B) FA0740 31 93.5% 96.8% 5.66 B+ (3.35) B- (2.75)
Wallach, Nolan MATH 109 - Mathematical Reasoning (C) FA0717 9 77.8% 88.9% 6.75 B+ (3.50) N/A
Klep, Igor MATH 10A - Calculus (A) FA07184 115 95.6% 95.6% 4.20 B+ (3.35) C+ (2.43)
Chan, Ping-Shun MATH 10A - Calculus (B) FA07201 123 93.5% 87.7% 4.14 B (3.27) B- (2.77)
Stevens, Laura Jeanne MATH 10A - Calculus (C) FA07183 138 94.8% 100.0% 4.29 B+ (3.37) C+ (2.66)
Chan, Ping-Shun MATH 10B - Calculus (A) FA07176 91 84.3% 80.9% 4.46 B (3.29) C+ (2.65)
Terras, Audrey MATH 10B - Calculus (B) FA07339 135 86.3% 75.0% 4.53 B+ (3.57) A- (3.73)
Lev, Vsevolod MATH 10C - Calculus (A) FA07198 64 73.0% 37.1% 4.50 B (3.22) C+ (2.50)
Hohnhold, Henning MATH 10C - Calculus (B) FA07160 104 67.6% 60.8% 5.00 B- (2.96) B- (2.71)
Sterbenz, Jacob MATH 110 - Intro/Partial Differ Equations (A) FA0725 13 84.6% 92.3% 5.27 B+ (3.40) C+ (2.68)
Sterbenz, Jacob MATH 110A - Intro/Partial Differ Equations (A) FA0725 13 84.6% 92.3% 5.27 B+ (3.40) C+ (2.68)
Meyer, David A. MATH 111A - Mathematical Modeling (A) FA0716 13 92.3% 100.0% 2.50 A- (3.77) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) FA0728 16 93.3% 80.0% 5.97 A- (3.92) B (3.14)
Rabin, Jeffrey Mark MATH 130A - Ordinary Differential Equation (A) FA0750 34 76.5% 81.8% 5.97 B (3.17) C+ (2.65)
Gross, Mark W. MATH 140A - Foundations of Analysis (A) FA0725 26 73.1% 96.2% 6.42 B (3.14) B (3.22)
Agler, Jim MATH 142A - Advanced Calculus (A) FA0746 32 65.5% 86.2% 7.63 B- (2.90) B- (2.97)
Harel, Guershon MATH 153 - Geometry for Secondary Teacher (A) FA0718 18 76.5% 70.6% 5.83 B (3.19) N/A
Bank, Randolph E MATH 170A - Numerical Linear Algebra (A) FA0716 11 70.0% 50.0% 5.05 C+ (2.60) N/A
Cheng, Li-Tien MATH 174 - Numericl Methods/Physcl Modlng (A) FA0719 13 92.3% 100.0% 4.81 B+ (3.42) N/A
Terras, Audrey MATH 183 - Statistical Methods (A) FA0744 11 27.3% 81.8% 5.41 B+ (3.40) B+ (3.47)
Roberts, Justin Deritter MATH 190 - Introduction to Topology (A) FA0718 15 100.0% 93.3% 6.21 B+ (3.46) N/A
Lunasin, Evelyn Manalo MATH 20A - Calculus/Science & Engineering (B) FA07156 116 87.5% 70.5% 6.98 B (3.11) B- (2.78)
Lev, Vsevolod MATH 20A - Calculus/Science & Engineering (C) FA07147 97 90.5% 64.6% 4.54 B- (2.88) C+ (2.43)
Linshaw, Andrew Ross MATH 20A - Calculus/Science & Engineering (D) FA07168 124 89.4% 74.6% 5.29 B- (2.97) C+ (2.34)
Eggers, John Dietrich MATH 20B - Calculus/Science & Engineering (A) FA07192 92 92.3% 98.9% 6.02 B (3.15) C+ (2.43)
Lunasin, Evelyn Manalo MATH 20B - Calculus/Science & Engineering (B) FA07177 129 80.2% 61.9% 5.93 B- (2.85) B- (2.71)
Hohnhold, Henning MATH 20B - Calculus/Science & Engineering (C) FA07121 87 78.8% 61.2% 5.64 B- (2.91) C+ (2.60)
Rogalski, Daniel MATH 20B - Calculus/Science & Engineering (E) FA07190 137 93.4% 94.2% 5.11 B+ (3.41) C+ (2.62)
Rabin, Jeffrey Mark MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) FA07273 193 87.4% 96.7% 5.02 B (3.13) C+ (2.54)
Nagy, Gabriel MATH 20C - Calculus&Analyt Geom/Sci&Engnr (B) FA07257 150 93.9% 92.6% 4.57 B+ (3.51) B- (2.79)
Mengi, Emre MATH 20C - Calculus&Analyt Geom/Sci&Engnr (C) FA07167 75 77.3% 56.0% 5.32 B (3.12) B- (2.80)
Cioaba, Sebastian MATH 20C - Calculus&Analyt Geom/Sci&Engnr (D) FA07311 156 96.0% 94.6% 5.48 B+ (3.48) C+ (2.45)
Ni, Lei MATH 20D - Intro/Differential Equations (A) FA07168 95 75.5% 75.5% 5.91 B (3.15) C+ (2.56)
Stevens, Laura Jeanne MATH 20D - Intro/Differential Equations (B) FA07227 169 90.3% 99.4% 5.87 B+ (3.42) B- (2.88)
Gan, Wee T. MATH 20D - Intro/Differential Equations (C) FA07132 86 80.0% 95.3% 5.94 B+ (3.38) B- (2.73)
Enright, Thomas J. MATH 20E - Vector Calculus (A) FA07183 98 75.0% 81.3% 5.06 B+ (3.43) B (3.05)
Sterbenz, Jacob MATH 20E - Vector Calculus (B) FA07149 89 87.2% 88.4% 5.91 B+ (3.52) B- (2.72)
Lin, James P. MATH 20F - Linear Algebra (A) FA07178 75 83.6% 78.1% 6.34 B+ (3.41) B- (2.85)
Harel, Guershon MATH 20F - Linear Algebra (B) FA07105 77 94.8% 88.3% 4.66 B+ (3.50) B- (2.71)
Nagy, Gabriel MATH 20F - Linear Algebra (C) FA07110 34 88.2% 100.0% 5.62 B+ (3.70) C+ (2.64)
Angle, Robert Blair MATH 3C - Precalculus (A) FA07104 71 82.9% 98.6% 5.13 B (3.03) C+ (2.38)
Beeson, Amanda Marieke MATH 3C - Precalculus (B) FA0754 35 67.6% 82.4% 6.15 B- (2.81) C+ (2.62)
Bucicovschi, Orest MATH 3C - Precalculus (C) FA0777 37 44.4% 20.0% 5.69 C+ (2.51) C- (1.96)
Regev, Alon MATH 3C - Precalculus (D) FA0732 16 31.3% 43.8% 6.25 C+ (2.56) C (2.07)
Arnold, Robert Bruce MATH 4C - Pre-calculus for Sci & Engn (A) FA07111 67 98.5% 96.9% 7.15 B- (2.84) C (2.16)
Bunch, James R. MATH 87 - Freshman Seminar (A) FA0717 17 94.1% 100.0% 0.50 A (4.00) N/A
Stevens, Laura Jeanne MATH 87 - Freshman Seminar (B) FA0720 17 100.0% 100.0% 0.62 A (4.00) N/A
Enright, Thomas J. MATH 104A - Number Theory (A) SU0715 16 93.3% 93.3% 6.23 B+ (3.47) N/A
Shenk, Norman A. MATH 10A - Calculus (A) SU0729 15 93.3% 100.0% 4.37 B+ (3.33) N/A
Arnold, Robert Bruce MATH 10B - Calculus (A) SU0737 29 89.7% 100.0% 7.09 B- (2.93) N/A
Szypowski, Ryan S. MATH 10B - Calculus (A) SU0739 30 70.4% 89.3% 5.60 B- (2.71) N/A
Clark, David A. MATH 10C - Calculus (A) SU07101 43 76.9% 100.0% 5.71 B (3.18) N/A
Fitzgerald, Carl H. MATH 120A - Elements of Complex Analysis (A) SU0721 17 82.4% 87.5% 8.38 B+ (3.43) N/A
Fitzgerald, Carl H. MATH 20A - Calculus/Science & Engineering (A) SU0721 16 68.8% 43.8% 6.93 B (3.00) N/A
Shenk, Norman A. MATH 20B - Calculus/Science & Engineering (A) SU0755 35 88.2% 94.3% 7.15 B+ (3.50) N/A
Mohanty, Yana Z MATH 20C - Calculus&Analyt Geom/Sci&Engnr (A) SU0786 50 82.0% 88.0% 7.30 B (3.23) N/A
Haff, Leonard R. MATH 20F - Linear Algebra (A) SU0759 35 94.3% 91.4% 6.67 B+ (3.53) N/A
Nagy, Gabriel MATH 20F - Linear Algebra (A) SU0750 21 84.2% 95.0% 7.87 B+ (3.42) N/A
Gurvich, Michael MATH 3C - Precalculus (A) SU0732 17 86.7% 93.8% 8.03 B (3.15) N/A
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